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1 | #include "basic_parameters_1_ICD_issue1rev6.h" | |
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1 | // In the frame of RPW LFR Sofware ICD Issue1 Rev8 (05/07/2013) | |
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2 | // version 1: 31/07/2013 | |
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3 | ||
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4 | #include "basic_parameters.h" | |
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2 | 5 | #include <math.h> |
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3 | 6 | #include <stdio.h> |
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4 | 7 | |
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5 | float k44_pe = 1; | |
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6 | float k55_pe = 1; | |
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7 | float k45_pe_re = 1; | |
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8 | float k45_pe_im = 1; | |
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8 | #define K44_PE 0 | |
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9 | #define K55_PE 1 | |
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10 | #define K45_PE_RE 2 | |
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11 | #define K45_PE_IM 3 | |
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12 | ||
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13 | #define K14_SX_RE 4 | |
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14 | #define K14_SX_IM 5 | |
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15 | #define K15_SX_RE 6 | |
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16 | #define K15_SX_IM 7 | |
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17 | #define K24_SX_RE 8 | |
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18 | #define K24_SX_IM 9 | |
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19 | #define K25_SX_RE 10 | |
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20 | #define K25_SX_IM 11 | |
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21 | #define K34_SX_RE 12 | |
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22 | #define K34_SX_IM 13 | |
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23 | #define K35_SX_RE 14 | |
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24 | #define K35_SX_IM 15 | |
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9 | 25 | |
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10 | float k14_sx_re = 1; | |
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11 | float k14_sx_im = 1; | |
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12 | float k15_sx_re = 1; | |
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13 | float k15_sx_im = 1; | |
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14 | float k24_sx_re = 1; | |
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15 | float k24_sx_im = 1; | |
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16 | float k25_sx_re = 1; | |
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17 | float k25_sx_im = 1; | |
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18 | float k34_sx_re = 1; | |
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19 | float k34_sx_im = 1; | |
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20 | float k35_sx_re = 1; | |
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21 | float k35_sx_im = 1; | |
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26 | #define K24_NY_RE 16 | |
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27 | #define K24_NY_IM 17 | |
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28 | #define K25_NY_RE 18 | |
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29 | #define K25_NY_IM 19 | |
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30 | #define K34_NY_RE 20 | |
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31 | #define K34_NY_IM 21 | |
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32 | #define K35_NY_RE 22 | |
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33 | #define K35_NY_IM 23 | |
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34 | ||
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35 | #define K24_NZ_RE 24 | |
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36 | #define K24_NZ_IM 25 | |
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37 | #define K25_NZ_RE 26 | |
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38 | #define K25_NZ_IM 27 | |
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39 | #define K34_NZ_RE 28 | |
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40 | #define K34_NZ_IM 29 | |
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41 | #define K35_NZ_RE 30 | |
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42 | #define K35_NZ_IM 31 | |
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43 | ||
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44 | float k_f0[NB_BINS_COMPRESSED_MATRIX_f0][32]; | |
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22 | 45 | |
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23 | float k24_ny_re = 1; | |
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24 | float k24_ny_im = 1; | |
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25 | float k25_ny_re = 1; | |
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26 | float k25_ny_im = 1; | |
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27 | float k34_ny_re = 1; | |
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28 | float k34_ny_im = 1; | |
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29 | float k35_ny_re = 1; | |
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30 | float k35_ny_im = 1; | |
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46 | void init_k_f0(){ | |
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47 | unsigned char i; | |
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48 | ||
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49 | for(i=0; i<NB_BINS_COMPRESSED_MATRIX_f0; i++){ | |
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50 | k_f0[i][K44_PE] = 1; | |
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51 | k_f0[i][K55_PE] = 1; | |
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52 | k_f0[i][K45_PE_RE] = 1; | |
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53 | k_f0[i][K45_PE_IM] = 1; | |
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31 | 54 | |
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32 | float k24_nz_re = 1; | |
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33 | float k24_nz_im = 1; | |
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34 | float k25_nz_re = 1; | |
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35 | float k25_nz_im = 1; | |
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36 | float k34_nz_re = 1; | |
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37 | float k34_nz_im = 1; | |
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38 | float k35_nz_re = 1; | |
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39 | float k35_nz_im = 1; | |
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55 | k_f0[i][K14_SX_RE] = 1; | |
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56 | k_f0[i][K14_SX_IM] = 1; | |
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57 | k_f0[i][K15_SX_RE] = 1; | |
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58 | k_f0[i][K15_SX_IM] = 1; | |
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59 | k_f0[i][K24_SX_RE] = 1; | |
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60 | k_f0[i][K24_SX_IM] = 1; | |
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61 | k_f0[i][K25_SX_RE] = 1; | |
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62 | k_f0[i][K25_SX_IM] = 1; | |
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63 | k_f0[i][K34_SX_RE] = 1; | |
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64 | k_f0[i][K34_SX_IM] = 1; | |
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65 | k_f0[i][K35_SX_RE] = 1; | |
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66 | k_f0[i][K35_SX_IM] = 1; | |
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67 | ||
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68 | k_f0[i][K24_NY_RE] = 1; | |
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69 | k_f0[i][K24_NY_IM] = 1; | |
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70 | k_f0[i][K25_NY_RE] = 1; | |
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71 | k_f0[i][K25_NY_IM] = 1; | |
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72 | k_f0[i][K34_NY_RE] = 1; | |
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73 | k_f0[i][K34_NY_IM] = 1; | |
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74 | k_f0[i][K35_NY_RE] = 1; | |
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75 | k_f0[i][K35_NY_IM] = 1; | |
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76 | ||
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77 | k_f0[i][K24_NZ_RE] = 1; | |
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78 | k_f0[i][K24_NZ_IM] = 1; | |
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79 | k_f0[i][K25_NZ_RE] = 1; | |
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80 | k_f0[i][K25_NZ_IM] = 1; | |
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81 | k_f0[i][K34_NZ_RE] = 1; | |
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82 | k_f0[i][K34_NZ_IM] = 1; | |
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83 | k_f0[i][K35_NZ_RE] = 1; | |
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84 | k_f0[i][K35_NZ_IM] = 1; | |
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85 | } | |
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86 | } | |
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40 | 87 | |
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41 | 88 | float alpha_M = 45 * (3.1415927/180); |
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42 | 89 | |
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43 | 90 | void BP1_set(){ |
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44 | 91 | int i, exponent; |
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45 | // int j; | |
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46 | 92 | float PSDB, PSDE, tmp, NVEC_V0, NVEC_V1, NVEC_V2, aux, tr_SB_SB, |
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47 | 93 | e_cross_b_re, e_cross_b_im, |
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48 | 94 | n_cross_e_scal_b_re, n_cross_e_scal_b_im, |
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49 | 95 | ny, nz, bx_bx_star, vphi, |
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50 | 96 | significand; |
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51 | 97 | signed char nbitexp, nbitsig, expmin, expmax; // 8 bits |
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52 | 98 | short int rangesig; // 16 bits |
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53 | 99 | unsigned short int psd, tmp_u_short_int; // 16 bits |
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54 | 100 | unsigned short int *pt_u_short_int; // pointer on unsigned 16-bit words |
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55 | 101 | unsigned char tmp_u_char; // 8 bits |
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56 | 102 | unsigned char *pt_u_char; // pointer on unsigned 8-bit bytes |
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57 | 103 | |
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58 | // unsigned char toto_u_char; | |
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59 | // unsigned char *pt_toto_u_char; | |
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60 | // signed char toto_s_char; | |
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61 | // float toto_f; | |
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104 | init_k_f0(); | |
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62 | 105 | |
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106 | #ifdef DEBUG_TCH | |
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63 | 107 | printf("Number of bins: %d\n", NB_BINS_COMPRESSED_MATRIX_f0); |
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64 | 108 | printf("BP1 : \n"); |
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109 | #endif | |
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65 | 110 | |
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66 | 111 | // initialization for managing the exponents of the floating point data: |
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67 | 112 | nbitexp = 5; // number of bits for the exponent |
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68 | 113 | expmax = 30; // maximum value of the exponent |
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69 | 114 | expmin = expmax - (1 << nbitexp) + 1; // accordingly the minimum exponent value |
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70 | printf("nbitexp : %d, expmax : %d, expmin : %d\n", nbitexp, expmax, expmin); | |
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71 | 115 | // for floating point data to be recorded on 12-bit words: |
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72 | 116 | nbitsig = 12 - nbitexp; // number of bits for the significand |
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73 | 117 | rangesig = (1 << nbitsig)-1; // == 2^nbitsig - 1 |
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74 | printf("nbitsig : %d, rangesig : %d\n", nbitsig, rangesig); | |
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75 | 118 | |
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76 | for(i=0; i<1; i++){ | |
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119 | #ifdef DEBUG_TCH | |
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120 | printf("nbitexp : %d, expmax : %d, expmin : %d\n", nbitexp, expmax, expmin); | |
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121 | printf("nbitsig : %d, rangesig : %d\n", nbitsig, rangesig); | |
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122 | #endif | |
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123 | ||
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124 | for(i=0; i<NB_BINS_COMPRESSED_MATRIX_f0; i++){ | |
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77 | 125 | //============================================== |
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78 | 126 | // BP1 PSDB == PA_LFR_SC_BP1_PB_F0 == 12 bits = 5 bits (exponent) + 7 bits (significand) |
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79 | 127 | PSDB = compressed_spectral_matrix_f0[i*30] // S11 |
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80 |
+ compressed_spectral_matrix_f0[i*30+ |
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81 |
+ compressed_spectral_matrix_f0[i*30+1 |
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128 | + compressed_spectral_matrix_f0[i*30+9] // S22 | |
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129 | + compressed_spectral_matrix_f0[i*30+16]; // S33 | |
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82 | 130 | |
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83 | 131 | significand = frexpf(PSDB/3, &exponent); // 0.5 <= significand < 1 |
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84 | 132 | // PSDB/3 = significand * 2^exponent |
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85 | 133 | // the division by 3 is to ensure that max value <= 2^30 |
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86 | 134 | |
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87 | printf("PSDB / 3 : %16.8e\n",PSDB/3); | |
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88 | printf("significand : %16.8e\n",significand); | |
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89 | printf("exponent : %d\n" ,exponent); | |
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90 | ||
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91 | 135 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin |
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92 | 136 | exponent = expmin; |
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93 | 137 | significand = 0.5; // min value that can be recorded |
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94 | 138 | } |
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95 | 139 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) |
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96 | 140 | exponent = expmax; |
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97 | 141 | significand = 1.0; // max value that can be recorded |
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98 | 142 | } |
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99 | 143 | if (significand == 0) {// in that case exponent == 0 too |
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100 | 144 | exponent = expmin; |
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101 | 145 | significand = 0.5; // min value that can be recorded |
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102 | 146 | } |
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103 | 147 | |
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104 |
psd = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // |
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148 | psd = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // Shift and cast into a 16-bit unsigned int with rounding | |
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105 | 149 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) |
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106 |
tmp_u_short_int = (unsigned short int) (exponent-expmin); // |
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150 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // Shift and cast into a 16-bit unsigned int | |
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107 | 151 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) |
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108 |
pt_u_short_int = (unsigned short int*) &LFR_BP1_F0[i*9+ |
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109 |
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110 |
*pt_u_short_int = psd | (tmp_u_short_int << nbitsig); // |
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152 | pt_u_short_int = (unsigned short int*) &LFR_BP1_F0[i*9+2]; // Affect an unsigned short int pointer with the | |
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153 | // adress where the 16-bit word result will be stored | |
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154 | *pt_u_short_int = psd | (tmp_u_short_int << nbitsig); // Put the exponent bits (nbitexp) next to the | |
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111 | 155 | // left place of the significand bits (nbitsig), making |
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112 | 156 | // the 16-bit word to be recorded, and record it using the pointer |
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113 | 157 | #ifdef DEBUG_TCH |
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158 | printf("PSDB / 3 : %16.8e\n",PSDB/3); | |
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159 | printf("significand : %16.8e\n",significand); | |
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160 | printf("exponent : %d\n" ,exponent); | |
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114 | 161 | printf("psd for PSDB significand : %d\n",psd); |
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115 | 162 | printf("tmp_u_short_int for PSDB exponent : %d\n",tmp_u_short_int); |
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116 |
printf("*pt_u_short_int for PSDB significand |
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117 |
printf("LFR_BP1_F0[i*9+ |
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118 |
printf("LFR_BP1_F0[i*9+ |
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163 | printf("*pt_u_short_int for PSDB exponent + significand: %.3d or %.4x\n",*pt_u_short_int, *pt_u_short_int); | |
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164 | printf("LFR_BP1_F0[i*9+3] : %.3d or %.2x\n",LFR_BP1_F0[i*9+3], LFR_BP1_F0[i*9+3]); | |
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165 | printf("LFR_BP1_F0[i*9+2] : %.3d or %.2x\n",LFR_BP1_F0[i*9+2], LFR_BP1_F0[i*9+2]); | |
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119 | 166 | #endif |
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120 | ||
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121 | //toto_f = 32768*32768; // max value ? | |
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122 | //toto_f = 1./3; // min value ? | |
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123 | //significand = frexp(toto_f, &exponent); | |
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124 | //printf("toto_f : %16.8e\n",toto_f); | |
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125 | //printf("significand : %16.8e\n",significand); | |
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126 | //printf("exponent : %d\n" ,exponent); | |
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127 | ||
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128 | 167 | //============================================== |
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129 | 168 | // BP1 PSDE == PA_LFR_SC_BP1_PE_F0 == 12 bits = 5 bits (exponent) + 7 bits (significand) |
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130 |
PSDE = compressed_spectral_matrix_f0[i*30+2 |
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131 |
+ compressed_spectral_matrix_f0[i*30+2 |
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132 |
+ compressed_spectral_matrix_f0[i*30+2 |
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133 |
- compressed_spectral_matrix_f0[i*30+2 |
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169 | PSDE = compressed_spectral_matrix_f0[i*30+21] * k_f0[i][K44_PE] // S44 | |
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170 | + compressed_spectral_matrix_f0[i*30+24] * k_f0[i][K55_PE] // S55 | |
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171 | + compressed_spectral_matrix_f0[i*30+22] * k_f0[i][K45_PE_RE] // S45 Re | |
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172 | - compressed_spectral_matrix_f0[i*30+23] * k_f0[i][K45_PE_IM]; // S45 Im | |
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134 | 173 | |
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135 | 174 | significand = frexpf(PSDE/2, &exponent); // 0.5 <= significand < 1 |
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136 | 175 | // PSDE/2 = significand * 2^exponent |
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137 | 176 | // the division by 2 is to ensure that max value <= 2^30 |
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138 | 177 | // should be reconsidered by taking into account the k-coefficients ... |
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139 | 178 | |
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140 | printf("PSDE / 2 : %16.8e\n",PSDE/2); | |
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141 | printf("significand : %16.8e\n",significand); | |
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142 | printf("exponent : %d\n" ,exponent); | |
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143 | ||
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144 | 179 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin |
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145 | 180 | exponent = expmin; |
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146 | 181 | significand = 0.5; // min value that can be recorded |
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147 | 182 | } |
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148 | 183 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) |
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149 | 184 | exponent = expmax; |
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150 | 185 | significand = 1.0; // max value that can be recorded |
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151 | 186 | } |
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152 | 187 | if (significand == 0) {// in that case exponent == 0 too |
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153 | 188 | exponent = expmin; |
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154 | 189 | significand = 0.5; // min value that can be recorded |
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155 | 190 | } |
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156 | 191 | |
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157 |
psd = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // |
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192 | psd = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // Shift and cast into a 16-bit unsigned int with rounding | |
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158 | 193 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) |
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159 |
tmp_u_short_int = (unsigned short int) (exponent-expmin); // |
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194 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // Shift and cast into a 16-bit unsigned int | |
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160 | 195 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) |
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161 |
pt_u_short_int = (unsigned short int*) &LFR_BP1_F0[i*9+ |
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196 | pt_u_short_int = (unsigned short int*) &LFR_BP1_F0[i*9+0]; // Affect an unsigned short int pointer with the | |
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162 | 197 | // adress where the 16-bit word result will be stored |
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163 |
*pt_u_short_int = psd | (tmp_u_short_int << nbitsig); // |
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198 | *pt_u_short_int = psd | (tmp_u_short_int << nbitsig); // Put the exponent bits (nbitexp) next to the | |
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164 | 199 | // left place of the significand bits (nbitsig), making |
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165 | 200 | // the 16-bit word to be recorded, and record it using the pointer |
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201 | #ifdef DEBUG_TCH | |
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202 | printf("PSDE / 2 : %16.8e\n",PSDE/2); | |
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203 | printf("significand : %16.8e\n",significand); | |
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204 | printf("exponent : %d\n" ,exponent); | |
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166 | 205 | printf("psd for PSDE significand : %d\n",psd); |
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167 | 206 | printf("tmp_u_short_int for PSDE exponent : %d\n",tmp_u_short_int); |
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168 |
printf("*pt_u_short_int for PSDE significand |
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169 |
printf("LFR_BP1_F0[i*9+ |
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170 |
printf("LFR_BP1_F0[i*9+ |
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171 | ||
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207 | printf("*pt_u_short_int for PSDE exponent + significand: %.3d or %.4x\n",*pt_u_short_int, *pt_u_short_int); | |
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208 | printf("LFR_BP1_F0[i*9+1] : %.3d or %.2x\n",LFR_BP1_F0[i*9+1], LFR_BP1_F0[i*9+1]); | |
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209 | printf("LFR_BP1_F0[i*9+0] : %.3d or %.2x\n",LFR_BP1_F0[i*9+0], LFR_BP1_F0[i*9+0]); | |
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210 | #endif | |
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172 | 211 | //============================================================================== |
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173 | 212 | // BP1 normal wave vector == PA_LFR_SC_BP1_NVEC_V0_F0 == 8 bits |
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174 | 213 | // == PA_LFR_SC_BP1_NVEC_V1_F0 == 8 bits |
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175 | 214 | // == PA_LFR_SC_BP1_NVEC_V2_F0 == 1 sign bit |
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176 |
tmp = sqrt( compressed_spectral_matrix_f0[i*30+ |
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177 |
+compressed_spectral_matrix_f0[i*30+ |
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178 |
+compressed_spectral_matrix_f0[i*30+1 |
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215 | tmp = sqrt( compressed_spectral_matrix_f0[i*30+2] *compressed_spectral_matrix_f0[i*30+2] //Im S12 | |
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216 | +compressed_spectral_matrix_f0[i*30+4] *compressed_spectral_matrix_f0[i*30+4] //Im S13 | |
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217 | +compressed_spectral_matrix_f0[i*30+11]*compressed_spectral_matrix_f0[i*30+11] //Im S23 | |
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179 | 218 | ); |
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180 |
NVEC_V0 = compressed_spectral_matrix_f0[i*30+1 |
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181 |
NVEC_V1 = -compressed_spectral_matrix_f0[i*30+ |
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182 |
NVEC_V2 = compressed_spectral_matrix_f0[i*30+ |
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219 | NVEC_V0 = compressed_spectral_matrix_f0[i*30+11]/ tmp; // S23 Im => n1 | |
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220 | NVEC_V1 = -compressed_spectral_matrix_f0[i*30+4] / tmp; // S13 Im => n2 | |
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221 | NVEC_V2 = compressed_spectral_matrix_f0[i*30+2] / tmp; // S12 Im => n3 | |
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183 | 222 | |
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223 | LFR_BP1_F0[i*9+4] = (unsigned char) (NVEC_V0*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
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224 | LFR_BP1_F0[i*9+5] = (unsigned char) (NVEC_V1*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
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225 | pt_u_char = (unsigned char*) &NVEC_V2; // affect an unsigned char pointer with the adress of NVEC_V2 | |
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226 | #ifdef LSB_FIRST_TCH | |
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227 | LFR_BP1_F0[i*9+6] = pt_u_char[3] & 0x80; // extract the sign bit of NVEC_V2 (32-bit float, sign bit in the 4th octet:PC convention) | |
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228 | // record it at the 8th bit position (from the right to the left) of LFR_BP1_F0[i*9+6] | |
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229 | #endif | |
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230 | #ifdef MSB_FIRST_TCH | |
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231 | LFR_BP1_F0[i*9+6] = pt_u_char[0] & 0x80; // extract the sign bit of NVEC_V2 (32-bit float, sign bit in the 0th octet:SPARC convention) | |
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232 | // record it at the 8th bit position (from the right to the left) of LFR_BP1_F0[i*9+6] | |
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233 | #endif | |
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234 | #ifdef DEBUG_TCH | |
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184 | 235 | printf("NVEC_V0 : %16.8e\n",NVEC_V0); |
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185 | 236 | printf("NVEC_V1 : %16.8e\n",NVEC_V1); |
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186 | 237 | printf("NVEC_V2 : %16.8e\n",NVEC_V2); |
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187 | ||
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188 | LFR_BP1_F0[i*9+4] = (unsigned char) (NVEC_V0*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
189 | LFR_BP1_F0[i*9+3] = (unsigned char) (NVEC_V1*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
190 | pt_u_char = (unsigned char*) &NVEC_V2; // affect an unsigned char pointer with the adress of NVEC_V2 | |
|
191 | LFR_BP1_F0[i*9+2] = pt_u_char[3] & 0x80; // extract the sign bit of NVEC_V2 (32-bit float, sign bit in the 4th octet) | |
|
192 | // record it at the 8th bit position (from the right to the left) of LFR_BP1_F0[i*9+2] | |
|
193 | ||
|
194 | 238 | printf("LFR_BP1_F0[i*9+4] for NVEC_V0 : %u\n",LFR_BP1_F0[i*9+4]); |
|
195 |
printf("LFR_BP1_F0[i*9+ |
|
|
196 |
printf("LFR_BP1_F0[i*9+ |
|
|
197 | ||
|
198 | //toto_f = 128.9999 ; | |
|
199 | //toto_s_char = (signed char) toto_f; | |
|
200 | //printf("toto_s_char : %d\n",toto_s_char); | |
|
201 | ||
|
202 | //toto_f = 255.999 ; | |
|
203 | //toto_u_char = (unsigned char) (toto_f); | |
|
204 | //printf("toto_u_char : %d\n",toto_u_char); | |
|
205 | ||
|
206 | //toto_f = -1110.999 ; | |
|
207 | //pt_toto_u_char = (unsigned char*) &toto_f; | |
|
208 | //printf("pt_toto_u_char : %u\n", pt_toto_u_char[3] & 0x80); | |
|
209 | ||
|
239 | printf("LFR_BP1_F0[i*9+5] for NVEC_V1 : %u\n",LFR_BP1_F0[i*9+5]); | |
|
240 | printf("LFR_BP1_F0[i*9+6] for NVEC_V2 : %u\n",LFR_BP1_F0[i*9+6]); | |
|
241 | #endif | |
|
210 | 242 | //======================================================= |
|
211 | 243 | // BP1 ellipticity == PA_LFR_SC_BP1_ELLIP_F0 == 4 bits |
|
212 | 244 | aux = 2*tmp / PSDB; // compute the ellipticity |
|
213 | 245 | |
|
214 | printf("ellipticity : %16.8e\n",aux); | |
|
215 | ||
|
216 | 246 | tmp_u_char = (unsigned char) (aux*15 + 0.5); // shift and cast into a 8-bit unsigned char with rounding |
|
217 | 247 | // where just the first 4 bits are used (0, ..., 15) |
|
218 |
LFR_BP1_F0[i*9+ |
|
|
248 | LFR_BP1_F0[i*9+6] = LFR_BP1_F0[i*9+6] | (tmp_u_char << 3); // put these 4 bits next to the right place | |
|
219 | 249 | // of the sign bit of NVEC_V2 (recorded |
|
220 |
// previously in LFR_BP1_F0[i*9+ |
|
|
221 | ||
|
250 | // previously in LFR_BP1_F0[i*9+6]) | |
|
251 | #ifdef DEBUG_TCH | |
|
252 | printf("ellipticity : %16.8e\n",aux); | |
|
222 | 253 | printf("tmp_u_char for ellipticity : %u\n",tmp_u_char); |
|
223 |
printf("LFR_BP1_F0[i*9+ |
|
|
224 | ||
|
254 | printf("LFR_BP1_F0[i*9+6] for NVEC_V2 + ellipticity : %u\n",LFR_BP1_F0[i*9+6]); | |
|
255 | #endif | |
|
225 | 256 | //============================================================== |
|
226 | 257 | // BP1 degree of polarization == PA_LFR_SC_BP1_DOP_F0 == 3 bits |
|
227 | tr_SB_SB = compressed_spectral_matrix_f0[i*30] *compressed_spectral_matrix_f0[i*30] | |
|
228 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
229 |
+ compressed_spectral_matrix_f0[i*30+1 |
|
|
258 | tr_SB_SB = compressed_spectral_matrix_f0[i*30] *compressed_spectral_matrix_f0[i*30] | |
|
259 | + compressed_spectral_matrix_f0[i*30+9] *compressed_spectral_matrix_f0[i*30+9] | |
|
260 | + compressed_spectral_matrix_f0[i*30+16] *compressed_spectral_matrix_f0[i*30+16] | |
|
261 | + 2 * compressed_spectral_matrix_f0[i*30+1] *compressed_spectral_matrix_f0[i*30+1] | |
|
230 | 262 | + 2 * compressed_spectral_matrix_f0[i*30+2] *compressed_spectral_matrix_f0[i*30+2] |
|
231 | 263 | + 2 * compressed_spectral_matrix_f0[i*30+3] *compressed_spectral_matrix_f0[i*30+3] |
|
232 | 264 | + 2 * compressed_spectral_matrix_f0[i*30+4] *compressed_spectral_matrix_f0[i*30+4] |
|
233 |
+ 2 * compressed_spectral_matrix_f0[i*30+ |
|
|
234 |
+ 2 * compressed_spectral_matrix_f0[i*30+1 |
|
|
235 | + 2 * compressed_spectral_matrix_f0[i*30+13]*compressed_spectral_matrix_f0[i*30+13]; | |
|
265 | + 2 * compressed_spectral_matrix_f0[i*30+10]*compressed_spectral_matrix_f0[i*30+10] | |
|
266 | + 2 * compressed_spectral_matrix_f0[i*30+11]*compressed_spectral_matrix_f0[i*30+11]; | |
|
236 | 267 | aux = PSDB*PSDB; |
|
237 | 268 | tmp = ( 3*tr_SB_SB - aux ) / ( 2 * aux ); // compute the degree of polarisation |
|
238 | 269 | |
|
239 | printf("DOP : %16.8e\n",tmp); | |
|
240 | ||
|
241 | 270 | tmp_u_char = (unsigned char) (tmp*7 + 0.5);// shift and cast into a 8-bit unsigned char with rounding |
|
242 | 271 | // where just the first 3 bits are used (0, ..., 7) |
|
243 |
LFR_BP1_F0[i*9+ |
|
|
244 |
// (from the right to the left) of LFR_BP1_F0[i*9+ |
|
|
245 | ||
|
272 | LFR_BP1_F0[i*9+6] = LFR_BP1_F0[i*9+6] | tmp_u_char; // record these 3 bits at the 3 first bit positions | |
|
273 | // (from the right to the left) of LFR_BP1_F0[i*9+6] | |
|
274 | #ifdef DEBUG_TCH | |
|
275 | printf("DOP : %16.8e\n",tmp); | |
|
246 | 276 | printf("tmp_u_char for DOP : %u\n",tmp_u_char); |
|
247 |
printf("LFR_BP1_F0[i*9+ |
|
|
248 | ||
|
277 | printf("LFR_BP1_F0[i*9+6] for NVEC_V2 + ellipticity + DOP : %u\n",LFR_BP1_F0[i*9+6]); | |
|
278 | #endif | |
|
249 | 279 | //======================================================================================= |
|
250 | 280 | // BP1 X_SO-component of the Poynting flux == PA_LFR_SC_BP1_SX_F0 == 8 (+ 2) bits |
|
251 | 281 | // = 5 bits (exponent) + 3 bits (significand) |
|
252 | 282 | // + 1 sign bit + 1 argument bit (two sectors) |
|
253 |
e_cross_b_re = compressed_spectral_matrix_f0[i*30+ |
|
|
254 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
255 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
256 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
257 |
+ compressed_spectral_matrix_f0[i*30+1 |
|
|
258 |
+ compressed_spectral_matrix_f0[i*30+1 |
|
|
259 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
260 |
+ compressed_spectral_matrix_f0[i*30+2 |
|
|
261 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
262 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
263 |
+ compressed_spectral_matrix_f0[i*30+1 |
|
|
264 |
+ compressed_spectral_matrix_f0[i*30+1 |
|
|
283 | e_cross_b_re = compressed_spectral_matrix_f0[i*30+17]*k_f0[i][K34_SX_RE] //S34 Re | |
|
284 | + compressed_spectral_matrix_f0[i*30+19]*k_f0[i][K35_SX_RE] //S35 Re | |
|
285 | + compressed_spectral_matrix_f0[i*30+5] *k_f0[i][K14_SX_RE] //S14 Re | |
|
286 | + compressed_spectral_matrix_f0[i*30+7] *k_f0[i][K15_SX_RE] //S15 Re | |
|
287 | + compressed_spectral_matrix_f0[i*30+12]*k_f0[i][K24_SX_RE] //S24 Re | |
|
288 | + compressed_spectral_matrix_f0[i*30+14]*k_f0[i][K25_SX_RE] //S25 Re | |
|
289 | + compressed_spectral_matrix_f0[i*30+18]*k_f0[i][K34_SX_IM] //S34 Im | |
|
290 | + compressed_spectral_matrix_f0[i*30+20]*k_f0[i][K35_SX_IM] //S35 Im | |
|
291 | + compressed_spectral_matrix_f0[i*30+6] *k_f0[i][K14_SX_IM] //S14 Im | |
|
292 | + compressed_spectral_matrix_f0[i*30+8] *k_f0[i][K15_SX_IM] //S15 Im | |
|
293 | + compressed_spectral_matrix_f0[i*30+13]*k_f0[i][K24_SX_IM] //S24 Im | |
|
294 | + compressed_spectral_matrix_f0[i*30+15]*k_f0[i][K25_SX_IM]; //S25 Im | |
|
265 | 295 | // Im(S_ji) = -Im(S_ij) |
|
266 | 296 | // k_ji = k_ij |
|
267 |
e_cross_b_im = compressed_spectral_matrix_f0[i*30+ |
|
|
268 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
269 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
270 |
+ compressed_spectral_matrix_f0[i*30+ |
|
|
271 |
+ compressed_spectral_matrix_f0[i*30+1 |
|
|
272 |
+ compressed_spectral_matrix_f0[i*30+1 |
|
|
273 |
- compressed_spectral_matrix_f0[i*30+ |
|
|
274 |
- compressed_spectral_matrix_f0[i*30+2 |
|
|
275 |
- compressed_spectral_matrix_f0[i*30+ |
|
|
276 |
- compressed_spectral_matrix_f0[i*30+ |
|
|
277 |
- compressed_spectral_matrix_f0[i*30+1 |
|
|
278 |
- compressed_spectral_matrix_f0[i*30+1 |
|
|
279 | ||
|
297 | e_cross_b_im = compressed_spectral_matrix_f0[i*30+17]*k_f0[i][K34_SX_IM] //S34 Re | |
|
298 | + compressed_spectral_matrix_f0[i*30+19]*k_f0[i][K35_SX_IM] //S35 Re | |
|
299 | + compressed_spectral_matrix_f0[i*30+5] *k_f0[i][K14_SX_IM] //S14 Re | |
|
300 | + compressed_spectral_matrix_f0[i*30+7] *k_f0[i][K15_SX_IM] //S15 Re | |
|
301 | + compressed_spectral_matrix_f0[i*30+12]*k_f0[i][K24_SX_IM] //S24 Re | |
|
302 | + compressed_spectral_matrix_f0[i*30+14]*k_f0[i][K25_SX_IM] //S25 Re | |
|
303 | - compressed_spectral_matrix_f0[i*30+18]*k_f0[i][K34_SX_RE] //S34 Im | |
|
304 | - compressed_spectral_matrix_f0[i*30+20]*k_f0[i][K35_SX_RE] //S35 Im | |
|
305 | - compressed_spectral_matrix_f0[i*30+6] *k_f0[i][K14_SX_RE] //S14 Im | |
|
306 | - compressed_spectral_matrix_f0[i*30+8] *k_f0[i][K15_SX_RE] //S15 Im | |
|
307 | - compressed_spectral_matrix_f0[i*30+13]*k_f0[i][K24_SX_RE] //S24 Im | |
|
308 | - compressed_spectral_matrix_f0[i*30+15]*k_f0[i][K25_SX_RE]; //S25 Im | |
|
309 | #ifdef DEBUG_TCH | |
|
280 | 310 | printf("ReaSX / 2 : %16.8e\n",e_cross_b_re/2); |
|
281 | ||
|
311 | #endif | |
|
282 | 312 | pt_u_char = (unsigned char*) &e_cross_b_re; // Affect an unsigned char pointer with the adress of e_cross_b_re |
|
283 | LFR_BP1_F0[i*9+8] = LFR_BP1_F0[i*9+8] | (pt_u_char[3] & 0x80); // Extract its sign bit (32-bit float, sign bit in the 4th octet) | |
|
313 | #ifdef LSB_FIRST_TCH | |
|
314 | LFR_BP1_F0[i*9+1] = LFR_BP1_F0[i*9+1] | (pt_u_char[3] & 0x80); // Extract its sign bit (32-bit float, sign bit in the 4th octet:PC convention) | |
|
284 | 315 | // Record it at the 8th bit position (from the right to the left) |
|
285 |
// of LFR_BP1_F0[i*9+ |
|
|
316 | // of LFR_BP1_F0[i*9+1] | |
|
286 | 317 | pt_u_char[3] = (pt_u_char[3] & 0x7f); // Make e_cross_b_re be positive in any case: |ReaSX| |
|
287 | ||
|
318 | #endif | |
|
319 | #ifdef MSB_FIRST_TCH | |
|
320 | LFR_BP1_F0[i*9+1] = LFR_BP1_F0[i*9+1] | (pt_u_char[0] & 0x80); // Extract its sign bit (32-bit float, sign bit in the 0th octet:SPARC convention) | |
|
321 | // Record it at the 8th bit position (from the right to the left) | |
|
322 | // of LFR_BP1_F0[i*9+1] | |
|
323 | pt_u_char[0] = (pt_u_char[0] & 0x7f); // Make e_cross_b_re be positive in any case: |ReaSX| | |
|
324 | #endif | |
|
288 | 325 | significand = frexpf(e_cross_b_re/2, &exponent);// 0.5 <= significand < 1 |
|
289 | 326 | // ReaSX/2 = significand * 2^exponent |
|
290 | 327 | // The division by 2 is to ensure that max value <= 2^30 (rough estimate) |
|
291 | 328 | // Should be reconsidered by taking into account the k-coefficients ... |
|
292 | 329 | |
|
293 | 330 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin |
|
294 | 331 | exponent = expmin; |
|
295 | 332 | significand = 0.5; // min value that can be recorded |
|
296 | 333 | } |
|
297 | 334 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) |
|
298 | 335 | exponent = expmax; |
|
299 | 336 | significand = 1.0; // max value that can be recorded |
|
300 | 337 | } |
|
301 | 338 | if (significand == 0) {// in that case exponent == 0 too |
|
302 | 339 | exponent = expmin; |
|
303 | 340 | significand = 0.5; // min value that can be recorded |
|
304 | 341 | } |
|
305 | printf("|ReaSX| / 2 : %16.8e\n",e_cross_b_re/2); | |
|
306 | printf("significand : %16.8e\n",significand); | |
|
307 | printf("exponent : %d\n" ,exponent); | |
|
308 | 342 | |
|
309 |
LFR_BP1_F0[i*9+ |
|
|
343 | LFR_BP1_F0[i*9+7] = (unsigned char) ((significand*2-1)*7 + 0.5); // Shift and cast into a 8-bit unsigned char with rounding | |
|
310 | 344 | // where just the first 3 bits are used (0, ..., 7) |
|
311 | 345 | tmp_u_char = (unsigned char) (exponent-expmin); // Shift and cast into a 8-bit unsigned char where |
|
312 | 346 | // just the first 5 bits are used (0, ..., 2^5-1) |
|
313 | printf("LFR_BP1_F0[i*9+1] for ReaSX significand : %u\n",LFR_BP1_F0[i*9+1]); | |
|
347 | #ifdef DEBUG_TCH | |
|
348 | printf("|ReaSX| / 2 : %16.8e\n",e_cross_b_re/2); | |
|
349 | printf("significand : %16.8e\n",significand); | |
|
350 | printf("exponent : %d\n" ,exponent); | |
|
351 | printf("LFR_BP1_F0[i*9+7] for ReaSX significand : %u\n",LFR_BP1_F0[i*9+7]); | |
|
314 | 352 | printf("tmp_u_char for ReaSX exponent : %d\n",tmp_u_char); |
|
315 | LFR_BP1_F0[i*9+1] = LFR_BP1_F0[i*9+1] | (tmp_u_char << 3); // shift these 5 bits to the left before logical addition | |
|
316 | // with LFR_BP1_F0[i*9+1] | |
|
317 | printf("LFR_BP1_F0[i*9+1] for ReaSX exponent + significand : %u\n",LFR_BP1_F0[i*9+1]); | |
|
318 | printf("LFR_BP1_F0[i*9+8] for ReaSX sign + PSDB 'exponent' : %u\n",LFR_BP1_F0[i*9+8]); | |
|
319 | ||
|
353 | #endif | |
|
354 | LFR_BP1_F0[i*9+7] = LFR_BP1_F0[i*9+7] | (tmp_u_char << 3); // shift these 5 bits to the left before logical addition | |
|
355 | // with LFR_BP1_F0[i*9+7] | |
|
356 | #ifdef DEBUG_TCH | |
|
357 | printf("LFR_BP1_F0[i*9+7] for ReaSX exponent + significand : %u\n",LFR_BP1_F0[i*9+7]); | |
|
358 | printf("LFR_BP1_F0[i*9+1] for ReaSX sign + PSDE 'exponent' : %u\n",LFR_BP1_F0[i*9+1]); | |
|
320 | 359 | printf("ImaSX / 2 : %16.8e\n",e_cross_b_im/2); |
|
321 | ||
|
360 | #endif | |
|
322 | 361 | pt_u_char = (unsigned char*) &e_cross_b_im; // Affect an unsigned char pointer with the adress of e_cross_b_im |
|
362 | #ifdef LSB_FIRST_TCH | |
|
323 | 363 | pt_u_char[3] = pt_u_char[3] & 0x7f; // Make e_cross_b_im be positive in any case: |ImaSX| |
|
364 | #endif | |
|
365 | #ifdef MSB_FIRST_TCH | |
|
366 | pt_u_char[0] = pt_u_char[0] & 0x7f; // Make e_cross_b_im be positive in any case: |ImaSX| | |
|
367 | #endif | |
|
324 | 368 | tmp_u_char = (e_cross_b_im > e_cross_b_re) ? 0x40 : 0x00; // Determine the sector argument of SX. If |Im| > |Re| affect |
|
325 | 369 | // an unsigned 8-bit char with 01000000; otherwise with null. |
|
326 |
LFR_BP1_F0[i*9+ |
|
|
327 |
// to the left) of LFR_BP1_F0[i*9+ |
|
|
328 | ||
|
370 | LFR_BP1_F0[i*9+1] = LFR_BP1_F0[i*9+1] | tmp_u_char; // Record it as a sign bit at the 7th bit position (from the right | |
|
371 | // to the left) of LFR_BP1_F0[i*9+1], by simple logical addition. | |
|
372 | #ifdef DEBUG_TCH | |
|
329 | 373 | printf("|ImaSX| / 2 : %16.8e\n",e_cross_b_im/2); |
|
330 | 374 | printf("ArgSX sign : %u\n",tmp_u_char); |
|
331 |
printf("LFR_BP1_F0[i*9+ |
|
|
332 | ||
|
375 | printf("LFR_BP1_F0[i*9+1] for ReaSX & ArgSX signs + PSDE 'exponent' : %u\n",LFR_BP1_F0[i*9+1]); | |
|
376 | #endif | |
|
333 | 377 | //====================================================================== |
|
334 | 378 | // BP1 phase velocity estimator == PA_LFR_SC_BP1_VPHI_F0 == 8 (+ 2) bits |
|
335 | 379 | // = 5 bits (exponent) + 3 bits (significand) |
|
336 | 380 | // + 1 sign bit + 1 argument bit (two sectors) |
|
337 | 381 | ny = sin(alpha_M)*NVEC_V1 + cos(alpha_M)*NVEC_V2; |
|
338 | 382 | nz = NVEC_V0; |
|
339 |
bx_bx_star = cos(alpha_M)*cos(alpha_M)*compressed_spectral_matrix_f0[i*30+ |
|
|
340 |
+ sin(alpha_M)*sin(alpha_M)*compressed_spectral_matrix_f0[i*30+1 |
|
|
341 |
- 2*sin(alpha_M)*cos(alpha_M)*compressed_spectral_matrix_f0[i*30+1 |
|
|
383 | bx_bx_star = cos(alpha_M)*cos(alpha_M)*compressed_spectral_matrix_f0[i*30+9] // S22 Re | |
|
384 | + sin(alpha_M)*sin(alpha_M)*compressed_spectral_matrix_f0[i*30+16] // S33 Re | |
|
385 | - 2*sin(alpha_M)*cos(alpha_M)*compressed_spectral_matrix_f0[i*30+10]; // S23 Re | |
|
342 | 386 | |
|
343 |
n_cross_e_scal_b_re = ny * (compressed_spectral_matrix_f0[i*30+1 |
|
|
344 |
+compressed_spectral_matrix_f0[i*30+1 |
|
|
345 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
346 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
347 |
+compressed_spectral_matrix_f0[i*30+1 |
|
|
348 |
+compressed_spectral_matrix_f0[i*30+1 |
|
|
349 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
350 |
+compressed_spectral_matrix_f0[i*30+2 |
|
|
351 |
+ nz * (compressed_spectral_matrix_f0[i*30+1 |
|
|
352 |
+compressed_spectral_matrix_f0[i*30+1 |
|
|
353 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
354 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
355 |
+compressed_spectral_matrix_f0[i*30+1 |
|
|
356 |
+compressed_spectral_matrix_f0[i*30+1 |
|
|
357 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
358 |
+compressed_spectral_matrix_f0[i*30+2 |
|
|
387 | n_cross_e_scal_b_re = ny * (compressed_spectral_matrix_f0[i*30+12]*k_f0[i][K24_NY_RE] //S24 Re | |
|
388 | +compressed_spectral_matrix_f0[i*30+14]*k_f0[i][K25_NY_RE] //S25 Re | |
|
389 | +compressed_spectral_matrix_f0[i*30+17]*k_f0[i][K34_NY_RE] //S34 Re | |
|
390 | +compressed_spectral_matrix_f0[i*30+19]*k_f0[i][K35_NY_RE] //S35 Re | |
|
391 | +compressed_spectral_matrix_f0[i*30+13]*k_f0[i][K24_NY_IM] //S24 Im | |
|
392 | +compressed_spectral_matrix_f0[i*30+15]*k_f0[i][K25_NY_IM] //S25 Im | |
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393 | +compressed_spectral_matrix_f0[i*30+18]*k_f0[i][K34_NY_IM] //S34 Im | |
|
394 | +compressed_spectral_matrix_f0[i*30+20]*k_f0[i][K35_NY_IM]) //S35 Im | |
|
395 | + nz * (compressed_spectral_matrix_f0[i*30+12]*k_f0[i][K24_NZ_RE] //S24 Re | |
|
396 | +compressed_spectral_matrix_f0[i*30+14]*k_f0[i][K25_NZ_RE] //S25 Re | |
|
397 | +compressed_spectral_matrix_f0[i*30+17]*k_f0[i][K34_NZ_RE] //S34 Re | |
|
398 | +compressed_spectral_matrix_f0[i*30+19]*k_f0[i][K35_NZ_RE] //S35 Re | |
|
399 | +compressed_spectral_matrix_f0[i*30+13]*k_f0[i][K24_NZ_IM] //S24 Im | |
|
400 | +compressed_spectral_matrix_f0[i*30+15]*k_f0[i][K25_NZ_IM] //S25 Im | |
|
401 | +compressed_spectral_matrix_f0[i*30+18]*k_f0[i][K34_NZ_IM] //S34 Im | |
|
402 | +compressed_spectral_matrix_f0[i*30+20]*k_f0[i][K35_NZ_IM]);//S35 Im | |
|
359 | 403 | // Im(S_ji) = -Im(S_ij) |
|
360 | 404 | // k_ji = k_ij |
|
361 |
n_cross_e_scal_b_im = ny * (compressed_spectral_matrix_f0[i*30+1 |
|
|
362 |
+compressed_spectral_matrix_f0[i*30+1 |
|
|
363 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
364 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
365 |
-compressed_spectral_matrix_f0[i*30+1 |
|
|
366 |
-compressed_spectral_matrix_f0[i*30+1 |
|
|
367 |
-compressed_spectral_matrix_f0[i*30+ |
|
|
368 |
-compressed_spectral_matrix_f0[i*30+2 |
|
|
369 |
+ nz * (compressed_spectral_matrix_f0[i*30+1 |
|
|
370 |
+compressed_spectral_matrix_f0[i*30+1 |
|
|
371 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
372 |
+compressed_spectral_matrix_f0[i*30+ |
|
|
373 |
-compressed_spectral_matrix_f0[i*30+1 |
|
|
374 |
-compressed_spectral_matrix_f0[i*30+1 |
|
|
375 |
-compressed_spectral_matrix_f0[i*30+ |
|
|
376 |
-compressed_spectral_matrix_f0[i*30+2 |
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|
377 | ||
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405 | n_cross_e_scal_b_im = ny * (compressed_spectral_matrix_f0[i*30+12]*k_f0[i][K24_NY_IM] //S24 Re | |
|
406 | +compressed_spectral_matrix_f0[i*30+14]*k_f0[i][K25_NY_IM] //S25 Re | |
|
407 | +compressed_spectral_matrix_f0[i*30+17]*k_f0[i][K34_NY_IM] //S34 Re | |
|
408 | +compressed_spectral_matrix_f0[i*30+19]*k_f0[i][K35_NY_IM] //S35 Re | |
|
409 | -compressed_spectral_matrix_f0[i*30+13]*k_f0[i][K24_NY_RE] //S24 Im | |
|
410 | -compressed_spectral_matrix_f0[i*30+15]*k_f0[i][K25_NY_RE] //S25 Im | |
|
411 | -compressed_spectral_matrix_f0[i*30+18]*k_f0[i][K34_NY_RE] //S34 Im | |
|
412 | -compressed_spectral_matrix_f0[i*30+20]*k_f0[i][K35_NY_RE]) //S35 Im | |
|
413 | + nz * (compressed_spectral_matrix_f0[i*30+12]*k_f0[i][K24_NZ_IM] //S24 Re | |
|
414 | +compressed_spectral_matrix_f0[i*30+14]*k_f0[i][K25_NZ_IM] //S25 Re | |
|
415 | +compressed_spectral_matrix_f0[i*30+17]*k_f0[i][K34_NZ_IM] //S34 Re | |
|
416 | +compressed_spectral_matrix_f0[i*30+19]*k_f0[i][K35_NZ_IM] //S35 Re | |
|
417 | -compressed_spectral_matrix_f0[i*30+13]*k_f0[i][K24_NZ_RE] //S24 Im | |
|
418 | -compressed_spectral_matrix_f0[i*30+15]*k_f0[i][K25_NZ_RE] //S25 Im | |
|
419 | -compressed_spectral_matrix_f0[i*30+18]*k_f0[i][K34_NZ_RE] //S34 Im | |
|
420 | -compressed_spectral_matrix_f0[i*30+20]*k_f0[i][K35_NZ_RE]);//S35 Im | |
|
421 | #ifdef DEBUG_TCH | |
|
378 | 422 | printf("n_cross_e_scal_b_re : %16.8e\n",n_cross_e_scal_b_re); |
|
379 | 423 | printf("n_cross_e_scal_b_im : %16.8e\n",n_cross_e_scal_b_im); |
|
424 | #endif | |
|
380 | 425 | // vphi = n_cross_e_scal_b_re / bx_bx_star => sign(VPHI) = sign(n_cross_e_scal_b_re) |
|
381 | 426 | pt_u_char = (unsigned char*) &n_cross_e_scal_b_re; // Affect an unsigned char pointer with the adress of n_cross_e_scal_b_re |
|
382 | LFR_BP1_F0[i*9+7] = LFR_BP1_F0[i*9+7] | (pt_u_char[3] & 0x80); // Extract its sign bit (32-bit float, sign bit in the 4th octet) | |
|
427 | #ifdef LSB_FIRST_TCH | |
|
428 | LFR_BP1_F0[i*9+3] = LFR_BP1_F0[i*9+3] | (pt_u_char[3] & 0x80); // Extract its sign bit (32-bit float, sign bit in the 4th octet:PC convention) | |
|
383 | 429 | // Record it at the 8th bit position (from the right to the left) |
|
384 |
// of LFR_BP1_F0[i*9+ |
|
|
430 | // of LFR_BP1_F0[i*9+3] | |
|
385 | 431 | pt_u_char[3] = (pt_u_char[3] & 0x7f); // Make n_cross_e_scal_b_re be positive in any case: |n_cross_e_scal_b_re| |
|
432 | #endif | |
|
433 | #ifdef MSB_FIRST_TCH | |
|
434 | LFR_BP1_F0[i*9+3] = LFR_BP1_F0[i*9+3] | (pt_u_char[0] & 0x80); // Extract its sign bit (32-bit float, sign bit in the 0th octet:SPARC convention) | |
|
435 | // Record it at the 8th bit position (from the right to the left) | |
|
436 | // of LFR_BP1_F0[i*9+3] | |
|
437 | pt_u_char[0] = (pt_u_char[0] & 0x7f); // Make n_cross_e_scal_b_re be positive in any case: |n_cross_e_scal_b_re| | |
|
438 | #endif | |
|
386 | 439 | vphi = n_cross_e_scal_b_re / bx_bx_star; // Compute |VPHI| |
|
387 | 440 | |
|
388 | 441 | significand = frexpf(vphi/2, &exponent); // 0.5 <= significand < 1 |
|
389 | 442 | // vphi/2 = significand * 2^exponent |
|
390 | 443 | // The division by 2 is to ensure that max value <= 2^30 (rough estimate) |
|
391 | 444 | // Should be reconsidered by taking into account the k-coefficients ... |
|
392 | 445 | |
|
393 | 446 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin |
|
394 | 447 | exponent = expmin; |
|
395 | 448 | significand = 0.5; // min value that can be recorded |
|
396 | 449 | } |
|
397 | 450 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) |
|
398 | 451 | exponent = expmax; |
|
399 | 452 | significand = 1.0; // max value that can be recorded |
|
400 | 453 | } |
|
401 | 454 | if (significand == 0) {// in that case exponent == 0 too |
|
402 | 455 | exponent = expmin; |
|
403 | 456 | significand = 0.5; // min value that can be recorded |
|
404 | 457 | } |
|
458 | #ifdef DEBUG_TCH | |
|
405 | 459 | printf("|VPHI| / 2 : %16.8e\n",vphi/2); |
|
406 | 460 | printf("significand : %16.8e\n",significand); |
|
407 | 461 | printf("exponent : %d\n" ,exponent); |
|
408 | ||
|
409 |
LFR_BP1_F0[i*9+ |
|
|
462 | #endif | |
|
463 | LFR_BP1_F0[i*9+8] = (unsigned char) ((significand*2-1)*7 + 0.5); // Shift and cast into a 8-bit unsigned char with rounding | |
|
410 | 464 | // where just the first 3 bits are used (0, ..., 7) |
|
411 | 465 | tmp_u_char = (unsigned char) (exponent-expmin); // Shift and cast into a 8-bit unsigned char where |
|
412 | 466 | // just the first 5 bits are used (0, ..., 2^5-1) |
|
413 | printf("LFR_BP1_F0[i*9+0] for VPHI significand : %u\n",LFR_BP1_F0[i*9+0]); | |
|
467 | #ifdef DEBUG_TCH | |
|
468 | printf("LFR_BP1_F0[i*9+8] for VPHI significand : %u\n",LFR_BP1_F0[i*9+8]); | |
|
414 | 469 | printf("tmp_u_char for VPHI exponent : %d\n",tmp_u_char); |
|
415 | LFR_BP1_F0[i*9+0] = LFR_BP1_F0[i*9+0] | (tmp_u_char << 3); // shift these 5 bits to the left before logical addition | |
|
416 | // with LFR_BP1_F0[i*9+0] | |
|
417 | printf("LFR_BP1_F0[i*9+0] for VPHI exponent + significand : %u\n",LFR_BP1_F0[i*9+0]); | |
|
418 | printf("LFR_BP1_F0[i*9+6] for VPHI sign + PSDE 'exponent' : %u\n",LFR_BP1_F0[i*9+6]); | |
|
419 | ||
|
470 | #endif | |
|
471 | LFR_BP1_F0[i*9+8] = LFR_BP1_F0[i*9+8] | (tmp_u_char << 3); // shift these 5 bits to the left before logical addition | |
|
472 | // with LFR_BP1_F0[i*9+8] | |
|
473 | #ifdef DEBUG_TCH | |
|
474 | printf("LFR_BP1_F0[i*9+8] for VPHI exponent + significand : %u\n",LFR_BP1_F0[i*9+8]); | |
|
475 | printf("LFR_BP1_F0[i*9+3] for VPHI sign + PSDB 'exponent' : %u\n",LFR_BP1_F0[i*9+3]); | |
|
476 | #endif | |
|
420 | 477 | pt_u_char = (unsigned char*) &n_cross_e_scal_b_im; // Affect an unsigned char pointer with the adress of n_cross_e_scal_b_im |
|
478 | #ifdef LSB_FIRST_TCH | |
|
421 | 479 | pt_u_char[3] = pt_u_char[3] & 0x7f; // Make n_cross_e_scal_b_im be positive in any case: |ImaSX| |
|
480 | #endif | |
|
481 | #ifdef MSB_FIRST_TCH | |
|
482 | pt_u_char[0] = pt_u_char[0] & 0x7f; // Make n_cross_e_scal_b_im be positive in any case: |ImaSX| | |
|
483 | #endif | |
|
422 | 484 | tmp_u_char = (n_cross_e_scal_b_im > n_cross_e_scal_b_re) ? 0x40 : 0x00; // Determine the sector argument of SX. If |Im| > |Re| affect |
|
423 | 485 | // an unsigned 8-bit char with 01000000; otherwise with null. |
|
424 |
LFR_BP1_F0[i*9+ |
|
|
425 |
// to the left) of LFR_BP1_F0[i*9+ |
|
|
426 | ||
|
486 | LFR_BP1_F0[i*9+3] = LFR_BP1_F0[i*9+3] | tmp_u_char; // Record it as a sign bit at the 7th bit position (from the right | |
|
487 | // to the left) of LFR_BP1_F0[i*9+3], by simple logical addition. | |
|
488 | #ifdef DEBUG_TCH | |
|
427 | 489 | printf("|n_cross_e_scal_b_im| : %16.8e\n",n_cross_e_scal_b_im); |
|
428 | 490 | printf("|n_cross_e_scal_b_im|/bx_bx_star/2: %16.8e\n",n_cross_e_scal_b_im/bx_bx_star/2); |
|
429 | 491 | printf("ArgNEBX sign : %u\n",tmp_u_char); |
|
430 |
printf("LFR_BP1_F0[i*9+ |
|
|
431 | ||
|
492 | printf("LFR_BP1_F0[i*9+3] for VPHI & ArgNEBX signs + PSDB 'exponent' : %u\n",LFR_BP1_F0[i*9+3]); | |
|
493 | #endif | |
|
432 | 494 | } |
|
433 | 495 | } |
|
434 | 496 | |
|
435 | 497 | void BP2_set(){ |
|
436 | 498 | int i, exponent; |
|
437 | 499 | float aux, significand, cross_re, cross_im; |
|
438 | 500 | signed char nbitexp, nbitsig, expmin, expmax; // 8 bits |
|
439 | 501 | short int rangesig; // 16 bits |
|
440 | 502 | unsigned short int autocor, tmp_u_short_int; // 16 bits |
|
441 | 503 | unsigned short int *pt_u_short_int; // pointer on unsigned 16-bit words |
|
442 | 504 | |
|
505 | #ifdef DEBUG_TCH | |
|
443 | 506 | printf("Number of bins: %d\n", NB_BINS_COMPRESSED_MATRIX_f0); |
|
444 | 507 | printf("BP2 : \n"); |
|
508 | #endif | |
|
445 | 509 | |
|
446 | 510 | // For floating point data to be recorded on 16-bit words : |
|
447 | 511 | nbitexp = 6; // number of bits for the exponent |
|
448 | 512 | nbitsig = 16 - nbitexp; // number of bits for the significand |
|
449 | 513 | rangesig = (1 << nbitsig)-1; // == 2^nbitsig - 1 |
|
450 | printf("nbitexp : %d, nbitsig : %d, rangesig : %d\n", nbitexp, nbitsig, rangesig); | |
|
451 | 514 | expmax = 32; |
|
452 | 515 | expmin = expmax - (1 << nbitexp) + 1; |
|
453 | printf("expmin : %d, expmax : %d\n", expmin, expmax); | |
|
454 | 516 | |
|
455 | for(i = 0; i<1; i++){ | |
|
517 | #ifdef DEBUG_TCH | |
|
518 | printf("nbitexp : %d, nbitsig : %d, rangesig : %d\n", nbitexp, nbitsig, rangesig); | |
|
519 | printf("expmin : %d, expmax : %d\n", expmin, expmax); | |
|
520 | #endif | |
|
521 | ||
|
522 | for(i = 0; i<NB_BINS_COMPRESSED_MATRIX_f0; i++){ | |
|
456 | 523 | //============================================== |
|
457 | 524 | // BP2 normalized cross correlations == PA_LFR_SC_BP2_CROSS_F0 == 10 * (8+8) bits |
|
458 | 525 | // == PA_LFR_SC_BP2_CROSS_RE_0_F0 == 8 bits |
|
459 | 526 | // == PA_LFR_SC_BP2_CROSS_IM_0_F0 == 8 bits |
|
460 | 527 | // == PA_LFR_SC_BP2_CROSS_RE_1_F0 == 8 bits |
|
461 | 528 | // == PA_LFR_SC_BP2_CROSS_IM_1_F0 == 8 bits |
|
462 | 529 | // == PA_LFR_SC_BP2_CROSS_RE_2_F0 == 8 bits |
|
463 | 530 | // == PA_LFR_SC_BP2_CROSS_IM_2_F0 == 8 bits |
|
464 | 531 | // == PA_LFR_SC_BP2_CROSS_RE_3_F0 == 8 bits |
|
465 | 532 | // == PA_LFR_SC_BP2_CROSS_IM_3_F0 == 8 bits |
|
466 | 533 | // == PA_LFR_SC_BP2_CROSS_RE_4_F0 == 8 bits |
|
467 | 534 | // == PA_LFR_SC_BP2_CROSS_IM_4_F0 == 8 bits |
|
468 | 535 | // == PA_LFR_SC_BP2_CROSS_RE_5_F0 == 8 bits |
|
469 | 536 | // == PA_LFR_SC_BP2_CROSS_IM_5_F0 == 8 bits |
|
470 | 537 | // == PA_LFR_SC_BP2_CROSS_RE_6_F0 == 8 bits |
|
471 | 538 | // == PA_LFR_SC_BP2_CROSS_IM_6_F0 == 8 bits |
|
472 | 539 | // == PA_LFR_SC_BP2_CROSS_RE_7_F0 == 8 bits |
|
473 | 540 | // == PA_LFR_SC_BP2_CROSS_IM_7_F0 == 8 bits |
|
474 | 541 | // == PA_LFR_SC_BP2_CROSS_RE_8_F0 == 8 bits |
|
475 | 542 | // == PA_LFR_SC_BP2_CROSS_IM_8_F0 == 8 bits |
|
476 | 543 | // == PA_LFR_SC_BP2_CROSS_RE_9_F0 == 8 bits |
|
477 | 544 | // == PA_LFR_SC_BP2_CROSS_IM_9_F0 == 8 bits |
|
478 | 545 | // S12 |
|
479 |
aux = sqrt(compressed_spectral_matrix_f0[i*30]*compressed_spectral_matrix_f0[i*30+ |
|
|
480 |
cross_re = compressed_spectral_matrix_f0[i*30+ |
|
|
481 |
cross_im = compressed_spectral_matrix_f0[i*30+ |
|
|
482 |
LFR_BP2_F0[i*30+1 |
|
|
483 |
LFR_BP2_F0[i*30+ |
|
|
484 | printf("LFR_BP2_F0[i*30+19] for cross12_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+19]); | |
|
485 |
printf("LFR_BP2_F0[i*30+ |
|
|
486 | ||
|
546 | aux = sqrt(compressed_spectral_matrix_f0[i*30]*compressed_spectral_matrix_f0[i*30+9]); | |
|
547 | cross_re = compressed_spectral_matrix_f0[i*30+1] / aux; | |
|
548 | cross_im = compressed_spectral_matrix_f0[i*30+2] / aux; | |
|
549 | LFR_BP2_F0[i*30+10] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
550 | LFR_BP2_F0[i*30+20] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
551 | #ifdef DEBUG_TCH | |
|
552 | printf("LFR_BP2_F0[i*30+10] for cross12_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+10]); | |
|
553 | printf("LFR_BP2_F0[i*30+20] for cross12_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+20]); | |
|
554 | #endif | |
|
487 | 555 | // S13 |
|
488 |
aux = sqrt(compressed_spectral_matrix_f0[i*30]*compressed_spectral_matrix_f0[i*30+1 |
|
|
489 |
cross_re = compressed_spectral_matrix_f0[i*30+ |
|
|
490 |
cross_im = compressed_spectral_matrix_f0[i*30+ |
|
|
491 |
LFR_BP2_F0[i*30+1 |
|
|
492 |
LFR_BP2_F0[i*30+ |
|
|
493 | printf("LFR_BP2_F0[i*30+18] for cross13_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+18]); | |
|
494 |
printf("LFR_BP2_F0[i*30+ |
|
|
495 | ||
|
556 | aux = sqrt(compressed_spectral_matrix_f0[i*30]*compressed_spectral_matrix_f0[i*30+16]); | |
|
557 | cross_re = compressed_spectral_matrix_f0[i*30+3] / aux; | |
|
558 | cross_im = compressed_spectral_matrix_f0[i*30+4] / aux; | |
|
559 | LFR_BP2_F0[i*30+11] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
560 | LFR_BP2_F0[i*30+21] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
561 | #ifdef DEBUG_TCH | |
|
562 | printf("LFR_BP2_F0[i*30+11] for cross13_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+11]); | |
|
563 | printf("LFR_BP2_F0[i*30+21] for cross13_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+21]); | |
|
564 | #endif | |
|
496 | 565 | // S14 |
|
497 |
aux = sqrt(compressed_spectral_matrix_f0[i*30]*compressed_spectral_matrix_f0[i*30+2 |
|
|
498 |
cross_re = compressed_spectral_matrix_f0[i*30+ |
|
|
499 |
cross_im = compressed_spectral_matrix_f0[i*30+ |
|
|
500 |
LFR_BP2_F0[i*30+1 |
|
|
501 |
LFR_BP2_F0[i*30+ |
|
|
502 | printf("LFR_BP2_F0[i*30+17] for cross14_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+17]); | |
|
503 |
printf("LFR_BP2_F0[i*30+ |
|
|
566 | aux = sqrt(compressed_spectral_matrix_f0[i*30]*compressed_spectral_matrix_f0[i*30+21]); | |
|
567 | cross_re = compressed_spectral_matrix_f0[i*30+5] / aux; | |
|
568 | cross_im = compressed_spectral_matrix_f0[i*30+6] / aux; | |
|
569 | LFR_BP2_F0[i*30+12] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
570 | LFR_BP2_F0[i*30+22] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
571 | #ifdef DEBUG_TCH | |
|
572 | printf("LFR_BP2_F0[i*30+12] for cross14_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+12]); | |
|
573 | printf("LFR_BP2_F0[i*30+22] for cross14_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+22]); | |
|
574 | #endif | |
|
504 | 575 | // S15 |
|
505 |
aux = sqrt(compressed_spectral_matrix_f0[i*30]*compressed_spectral_matrix_f0[i*30+2 |
|
|
506 |
cross_re = compressed_spectral_matrix_f0[i*30+ |
|
|
507 |
cross_im = compressed_spectral_matrix_f0[i*30+ |
|
|
508 |
LFR_BP2_F0[i*30+1 |
|
|
509 |
LFR_BP2_F0[i*30+ |
|
|
510 | printf("LFR_BP2_F0[i*30+16] for cross15_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+16]); | |
|
511 |
printf("LFR_BP2_F0[i*30+ |
|
|
576 | aux = sqrt(compressed_spectral_matrix_f0[i*30]*compressed_spectral_matrix_f0[i*30+24]); | |
|
577 | cross_re = compressed_spectral_matrix_f0[i*30+7] / aux; | |
|
578 | cross_im = compressed_spectral_matrix_f0[i*30+8] / aux; | |
|
579 | LFR_BP2_F0[i*30+13] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
580 | LFR_BP2_F0[i*30+23] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
581 | #ifdef DEBUG_TCH | |
|
582 | printf("LFR_BP2_F0[i*30+13] for cross15_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+13]); | |
|
583 | printf("LFR_BP2_F0[i*30+23] for cross15_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+23]); | |
|
584 | #endif | |
|
512 | 585 | // S23 |
|
513 |
aux = sqrt(compressed_spectral_matrix_f0[i*30+ |
|
|
586 | aux = sqrt(compressed_spectral_matrix_f0[i*30+9]*compressed_spectral_matrix_f0[i*30+16]); | |
|
587 | cross_re = compressed_spectral_matrix_f0[i*30+10] / aux; | |
|
588 | cross_im = compressed_spectral_matrix_f0[i*30+11] / aux; | |
|
589 | LFR_BP2_F0[i*30+14] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
590 | LFR_BP2_F0[i*30+24] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
591 | #ifdef DEBUG_TCH | |
|
592 | printf("LFR_BP2_F0[i*30+14] for cross23_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+14]); | |
|
593 | printf("LFR_BP2_F0[i*30+24] for cross23_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+24]); | |
|
594 | #endif | |
|
595 | // S24 | |
|
596 | aux = sqrt(compressed_spectral_matrix_f0[i*30+9]*compressed_spectral_matrix_f0[i*30+21]); | |
|
514 | 597 | cross_re = compressed_spectral_matrix_f0[i*30+12] / aux; |
|
515 | 598 | cross_im = compressed_spectral_matrix_f0[i*30+13] / aux; |
|
516 | 599 | LFR_BP2_F0[i*30+15] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding |
|
517 |
LFR_BP2_F0[i*30+5] |
|
|
518 | printf("LFR_BP2_F0[i*30+15] for cross23_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+15]); | |
|
519 |
printf("LFR_BP2_F0[i*30+5] |
|
|
520 | // S24 | |
|
521 | aux = sqrt(compressed_spectral_matrix_f0[i*30+10]*compressed_spectral_matrix_f0[i*30+24]); | |
|
600 | LFR_BP2_F0[i*30+25] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
601 | #ifdef DEBUG_TCH | |
|
602 | printf("LFR_BP2_F0[i*30+15] for cross24_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+15]); | |
|
603 | printf("LFR_BP2_F0[i*30+25] for cross24_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+25]); | |
|
604 | #endif | |
|
605 | // S25 | |
|
606 | aux = sqrt(compressed_spectral_matrix_f0[i*30+9]*compressed_spectral_matrix_f0[i*30+24]); | |
|
522 | 607 | cross_re = compressed_spectral_matrix_f0[i*30+14] / aux; |
|
523 | 608 | cross_im = compressed_spectral_matrix_f0[i*30+15] / aux; |
|
524 |
LFR_BP2_F0[i*30+1 |
|
|
525 |
LFR_BP2_F0[i*30+ |
|
|
526 | printf("LFR_BP2_F0[i*30+14] for cross24_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+14]); | |
|
527 |
printf("LFR_BP2_F0[i*30+ |
|
|
528 | // S25 | |
|
529 | aux = sqrt(compressed_spectral_matrix_f0[i*30+10]*compressed_spectral_matrix_f0[i*30+28]); | |
|
530 | cross_re = compressed_spectral_matrix_f0[i*30+16] / aux; | |
|
531 | cross_im = compressed_spectral_matrix_f0[i*30+17] / aux; | |
|
532 | LFR_BP2_F0[i*30+13] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
533 | LFR_BP2_F0[i*30+3] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
534 | printf("LFR_BP2_F0[i*30+13] for cross25_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+13]); | |
|
535 | printf("LFR_BP2_F0[i*30+3] for cross25_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+3]); | |
|
609 | LFR_BP2_F0[i*30+16] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
610 | LFR_BP2_F0[i*30+26] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
611 | #ifdef DEBUG_TCH | |
|
612 | printf("LFR_BP2_F0[i*30+16] for cross25_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+16]); | |
|
613 | printf("LFR_BP2_F0[i*30+26] for cross25_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+26]); | |
|
614 | #endif | |
|
536 | 615 | // S34 |
|
537 |
aux = sqrt(compressed_spectral_matrix_f0[i*30+1 |
|
|
538 |
cross_re = compressed_spectral_matrix_f0[i*30+ |
|
|
539 |
cross_im = compressed_spectral_matrix_f0[i*30+ |
|
|
540 |
LFR_BP2_F0[i*30+1 |
|
|
541 |
LFR_BP2_F0[i*30+2] |
|
|
542 | printf("LFR_BP2_F0[i*30+12] for cross34_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+12]); | |
|
543 |
printf("LFR_BP2_F0[i*30+ |
|
|
616 | aux = sqrt(compressed_spectral_matrix_f0[i*30+16]*compressed_spectral_matrix_f0[i*30+21]); | |
|
617 | cross_re = compressed_spectral_matrix_f0[i*30+17] / aux; | |
|
618 | cross_im = compressed_spectral_matrix_f0[i*30+18] / aux; | |
|
619 | LFR_BP2_F0[i*30+17] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
620 | LFR_BP2_F0[i*30+27] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
621 | #ifdef DEBUG_TCH | |
|
622 | printf("LFR_BP2_F0[i*30+17] for cross34_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+17]); | |
|
623 | printf("LFR_BP2_F0[i*30+27] for cross34_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+27]); | |
|
624 | #endif | |
|
544 | 625 | // S35 |
|
545 |
aux = sqrt(compressed_spectral_matrix_f0[i*30+1 |
|
|
626 | aux = sqrt(compressed_spectral_matrix_f0[i*30+16]*compressed_spectral_matrix_f0[i*30+24]); | |
|
627 | cross_re = compressed_spectral_matrix_f0[i*30+19] / aux; | |
|
628 | cross_im = compressed_spectral_matrix_f0[i*30+20] / aux; | |
|
629 | LFR_BP2_F0[i*30+18] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
630 | LFR_BP2_F0[i*30+28] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
631 | #ifdef DEBUG_TCH | |
|
632 | printf("LFR_BP2_F0[i*30+18] for cross35_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+18]); | |
|
633 | printf("LFR_BP2_F0[i*30+28] for cross35_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+28]); | |
|
634 | #endif | |
|
635 | // S45 | |
|
636 | aux = sqrt(compressed_spectral_matrix_f0[i*30+21]*compressed_spectral_matrix_f0[i*30+24]); | |
|
546 | 637 | cross_re = compressed_spectral_matrix_f0[i*30+22] / aux; |
|
547 | 638 | cross_im = compressed_spectral_matrix_f0[i*30+23] / aux; |
|
548 |
LFR_BP2_F0[i*30+1 |
|
|
549 |
LFR_BP2_F0[i*30+ |
|
|
550 | printf("LFR_BP2_F0[i*30+11] for cross35_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+11]); | |
|
551 |
printf("LFR_BP2_F0[i*30+1] |
|
|
552 | // S45 | |
|
553 | aux = sqrt(compressed_spectral_matrix_f0[i*30+24]*compressed_spectral_matrix_f0[i*30+28]); | |
|
554 | cross_re = compressed_spectral_matrix_f0[i*30+26] / aux; | |
|
555 | cross_im = compressed_spectral_matrix_f0[i*30+27] / aux; | |
|
556 | LFR_BP2_F0[i*30+10] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
557 | LFR_BP2_F0[i*30+0] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
558 | printf("LFR_BP2_F0[i*30+10] for cross45_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+10]); | |
|
559 | printf("LFR_BP2_F0[i*30+0] for cross45_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+0]); | |
|
560 | ||
|
639 | LFR_BP2_F0[i*30+19] = (unsigned char) (cross_re*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
640 | LFR_BP2_F0[i*30+29] = (unsigned char) (cross_im*127.5 + 128); // shift and cast into a 8-bit unsigned char (0, ..., 255) with rounding | |
|
641 | #ifdef DEBUG_TCH | |
|
642 | printf("LFR_BP2_F0[i*30+19] for cross45_re (%16.8e) : %.3u\n",cross_re, LFR_BP2_F0[i*30+19]); | |
|
643 | printf("LFR_BP2_F0[i*30+29] for cross45_im (%16.8e) : %.3u\n",cross_im, LFR_BP2_F0[i*30+29]); | |
|
644 | #endif | |
|
561 | 645 | //============================================== |
|
562 | 646 | // BP2 auto correlations == PA_LFR_SC_BP2_AUTO_F0 == 5*16 bits = 5*[6 bits (exponent) + 10 bits (significand)] |
|
563 | 647 | // == PA_LFR_SC_BP2_AUTO_A0_F0 == 16 bits |
|
564 | 648 | // == PA_LFR_SC_BP2_AUTO_A1_F0 == 16 bits |
|
565 | 649 | // == PA_LFR_SC_BP2_AUTO_A2_F0 == 16 bits |
|
566 | 650 | // == PA_LFR_SC_BP2_AUTO_A3_F0 == 16 bits |
|
567 | 651 | // == PA_LFR_SC_BP2_AUTO_A4_F0 == 16 bits |
|
568 | 652 | // S11 |
|
569 | 653 | significand = frexpf(compressed_spectral_matrix_f0[i*30], &exponent); // 0.5 <= significand < 1 |
|
570 | 654 | // S11 = significand * 2^exponent |
|
655 | #ifdef DEBUG_TCH | |
|
571 | 656 | printf("S11 : %16.8e\n",compressed_spectral_matrix_f0[i*30]); |
|
572 | 657 | printf("significand : %16.8e\n",significand); |
|
573 | 658 | printf("exponent : %d\n" ,exponent); |
|
659 | #endif | |
|
660 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin | |
|
661 | exponent = expmin; | |
|
662 | significand = 0.5; // min value that can be recorded | |
|
663 | } | |
|
664 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) | |
|
665 | exponent = expmax; | |
|
666 | significand = 1.0; // max value that can be recorded | |
|
667 | } | |
|
668 | if (significand == 0) {// in that case exponent == 0 too | |
|
669 | exponent = expmin; | |
|
670 | significand = 0.5; // min value that can be recorded | |
|
671 | } | |
|
672 | ||
|
673 | autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // Shift and cast into a 16-bit unsigned int with rounding | |
|
674 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) | |
|
675 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // Shift and cast into a 16-bit unsigned int | |
|
676 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) | |
|
677 | pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+0]; // Affect an unsigned short int pointer with the | |
|
678 | // adress where the 16-bit word result will be stored | |
|
679 | *pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // Put the exponent bits (nbitexp) next to the | |
|
680 | // left place of the significand bits (nbitsig), making | |
|
681 | // the 16-bit word to be recorded, and record it using the pointer | |
|
682 | #ifdef DEBUG_TCH | |
|
683 | printf("autocor for S11 significand : %u\n",autocor ); | |
|
684 | printf("tmp_u_char for S11 exponent : %u\n",tmp_u_short_int ); | |
|
685 | printf("*pt_u_short_int for S11 exponent + significand : %.3d or %x\n",*pt_u_short_int, *pt_u_short_int); | |
|
686 | printf("LFR_BP2_F0[i*30+1] : %u or %x\n",LFR_BP2_F0[i*30+1], LFR_BP2_F0[i*30+1]); | |
|
687 | printf("LFR_BP2_F0[i*30+0] : %u or %x\n",LFR_BP2_F0[i*30+0], LFR_BP2_F0[i*30+0]); | |
|
688 | #endif | |
|
689 | // S22 | |
|
690 | significand = frexpf(compressed_spectral_matrix_f0[i*30+9], &exponent); // 0.5 <= significand < 1 | |
|
691 | // S22 = significand * 2^exponent | |
|
692 | #ifdef DEBUG_TCH | |
|
693 | printf("S22 : %16.8e\n",compressed_spectral_matrix_f0[i*30+9]); | |
|
694 | printf("significand : %16.8e\n",significand); | |
|
695 | printf("exponent : %d\n" ,exponent); | |
|
696 | #endif | |
|
697 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin | |
|
698 | exponent = expmin; | |
|
699 | significand = 0.5; // min value that can be recorded | |
|
700 | } | |
|
701 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) | |
|
702 | exponent = expmax; | |
|
703 | significand = 1.0; // max value that can be recorded | |
|
704 | } | |
|
705 | if (significand == 0) {// in that case exponent == 0 too | |
|
706 | exponent = expmin; | |
|
707 | significand = 0.5; // min value that can be recorded | |
|
708 | } | |
|
709 | ||
|
710 | autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // Shift and cast into a 16-bit unsigned int with rounding | |
|
711 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) | |
|
712 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // Shift and cast into a 16-bit unsigned int | |
|
713 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) | |
|
714 | pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+2]; // Affect an unsigned short int pointer with the | |
|
715 | // adress where the 16-bit word result will be stored | |
|
716 | *pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // Put the exponent bits (nbitexp) next to the | |
|
717 | // left place of the significand bits (nbitsig), making | |
|
718 | // the 16-bit word to be recorded, and record it using the pointer | |
|
719 | #ifdef DEBUG_TCH | |
|
720 | printf("autocor for S22 significand : %d\n",autocor ); | |
|
721 | printf("tmp_u_char for S22 exponent : %d\n",tmp_u_short_int ); | |
|
722 | printf("*pt_u_short_int for S22 exponent + significand : %.3d or %x\n",*pt_u_short_int, *pt_u_short_int); | |
|
723 | printf("LFR_BP2_F0[i*30+3] : %.3d or %x\n",LFR_BP2_F0[i*30+3], LFR_BP2_F0[i*30+3]); | |
|
724 | printf("LFR_BP2_F0[i*30+2] : %.3d or %x\n",LFR_BP2_F0[i*30+2], LFR_BP2_F0[i*30+2]); | |
|
725 | #endif | |
|
726 | // S33 | |
|
727 | significand = frexpf(compressed_spectral_matrix_f0[i*30+16], &exponent); // 0.5 <= significand < 1 | |
|
728 | // S33 = significand * 2^exponent | |
|
729 | #ifdef DEBUG_TCH | |
|
730 | printf("S33 : %16.8e\n",compressed_spectral_matrix_f0[i*30+16]); | |
|
731 | printf("significand : %16.8e\n",significand); | |
|
732 | printf("exponent : %d\n" ,exponent); | |
|
733 | #endif | |
|
734 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin | |
|
735 | exponent = expmin; | |
|
736 | significand = 0.5; // min value that can be recorded | |
|
737 | } | |
|
738 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) | |
|
739 | exponent = expmax; | |
|
740 | significand = 1.0; // max value that can be recorded | |
|
741 | } | |
|
742 | if (significand == 0) {// in that case exponent == 0 too | |
|
743 | exponent = expmin; | |
|
744 | significand = 0.5; // min value that can be recorded | |
|
745 | } | |
|
746 | ||
|
747 | autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // Shift and cast into a 16-bit unsigned int with rounding | |
|
748 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) | |
|
749 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // Shift and cast into a 16-bit unsigned int | |
|
750 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) | |
|
751 | pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+4]; // Affect an unsigned short int pointer with the | |
|
752 | // adress where the 16-bit word result will be stored | |
|
753 | *pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // Put the exponent bits (nbitexp) next to the | |
|
754 | // left place of the significand bits (nbitsig), making | |
|
755 | // the 16-bit word to be recorded, and record it using the pointer | |
|
756 | #ifdef DEBUG_TCH | |
|
757 | printf("autocor for S33 significand : %d\n",autocor ); | |
|
758 | printf("tmp_u_char for S33 exponent : %d\n",tmp_u_short_int ); | |
|
759 | printf("*pt_u_short_int for S33 exponent + significand : %.3d or %x\n",*pt_u_short_int, *pt_u_short_int); | |
|
760 | printf("LFR_BP2_F0[i*30+5] : %.3d or %x\n",LFR_BP2_F0[i*30+5], LFR_BP2_F0[i*30+5]); | |
|
761 | printf("LFR_BP2_F0[i*30+4] : %.3d or %x\n",LFR_BP2_F0[i*30+4], LFR_BP2_F0[i*30+4]); | |
|
762 | #endif | |
|
763 | // S44 | |
|
764 | significand = frexpf(compressed_spectral_matrix_f0[i*30+21], &exponent); // 0.5 <= significand < 1 | |
|
765 | // S44 = significand * 2^exponent | |
|
766 | #ifdef DEBUG_TCH | |
|
767 | printf("S44 : %16.8e\n",compressed_spectral_matrix_f0[i*30+21]); | |
|
768 | printf("significand : %16.8e\n",significand); | |
|
769 | printf("exponent : %d\n" ,exponent); | |
|
770 | #endif | |
|
574 | 771 | |
|
575 | 772 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin |
|
576 | 773 | exponent = expmin; |
|
577 | 774 | significand = 0.5; // min value that can be recorded |
|
578 | 775 | } |
|
579 | 776 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) |
|
580 | 777 | exponent = expmax; |
|
581 | 778 | significand = 1.0; // max value that can be recorded |
|
582 | 779 | } |
|
583 | 780 | if (significand == 0) {// in that case exponent == 0 too |
|
584 | 781 | exponent = expmin; |
|
585 | 782 | significand = 0.5; // min value that can be recorded |
|
586 | 783 | } |
|
587 | 784 | |
|
588 |
autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // |
|
|
785 | autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // Shift and cast into a 16-bit unsigned int with rounding | |
|
589 | 786 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) |
|
590 |
tmp_u_short_int = (unsigned short int) (exponent-expmin); // |
|
|
787 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // Shift and cast into a 16-bit unsigned int | |
|
591 | 788 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) |
|
592 |
pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+ |
|
|
593 |
|
|
|
594 |
*pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // |
|
|
789 | pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+6]; // Affect an unsigned short int pointer with the | |
|
790 | // adress where the 16-bit word result will be stored | |
|
791 | *pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // Put the exponent bits (nbitexp) next to the | |
|
595 | 792 | // left place of the significand bits (nbitsig), making |
|
596 | 793 | // the 16-bit word to be recorded, and record it using the pointer |
|
597 | //printf("size of autocor : %d\n",sizeof(autocor) ); | |
|
598 | //printf("size of tmp_u_short_int : %d\n",sizeof(tmp_u_short_int) ); | |
|
599 |
printf(" |
|
|
600 | printf("tmp_u_char for S11 exponent : %u\n",tmp_u_short_int ); | |
|
601 | printf("*pt_u_short_int for S11 significand + exponent: %u or %x\n",*pt_u_short_int, *pt_u_short_int); | |
|
602 |
printf("LFR_BP2_F0[i*30+ |
|
|
603 | printf("LFR_BP2_F0[i*30+28] : %u or %x\n",LFR_BP2_F0[i*30+28], LFR_BP2_F0[i*30+28]); | |
|
604 |
// S |
|
|
605 |
significand = frexpf(compressed_spectral_matrix_f0[i*30+ |
|
|
606 |
// S |
|
|
607 | printf("S22 : %16.8e\n",compressed_spectral_matrix_f0[i*30+10]); | |
|
794 | #ifdef DEBUG_TCH | |
|
795 | printf("autocor for S44 significand : %d\n",autocor ); | |
|
796 | printf("tmp_u_char for S44 exponent : %d\n",tmp_u_short_int ); | |
|
797 | printf("*pt_u_short_int for S44 exponent + significand : %.3d or %x\n",*pt_u_short_int, *pt_u_short_int); | |
|
798 | printf("LFR_BP2_F0[i*30+7] : %.3d or %x\n",LFR_BP2_F0[i*30+7], LFR_BP2_F0[i*30+7]); | |
|
799 | printf("LFR_BP2_F0[i*30+6] : %.3d or %x\n",LFR_BP2_F0[i*30+6], LFR_BP2_F0[i*30+6]); | |
|
800 | #endif | |
|
801 | // S55 | |
|
802 | significand = frexpf(compressed_spectral_matrix_f0[i*30+24], &exponent); // 0.5 <= significand < 1 | |
|
803 | // S55 = significand * 2^exponent | |
|
804 | #ifdef DEBUG_TCH | |
|
805 | printf("S55 : %16.8e\n",compressed_spectral_matrix_f0[i*30+24]); | |
|
608 | 806 | printf("significand : %16.8e\n",significand); |
|
609 | 807 | printf("exponent : %d\n" ,exponent); |
|
610 | ||
|
611 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin | |
|
612 | exponent = expmin; | |
|
613 | significand = 0.5; // min value that can be recorded | |
|
614 | } | |
|
615 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) | |
|
616 | exponent = expmax; | |
|
617 | significand = 1.0; // max value that can be recorded | |
|
618 | } | |
|
619 | if (significand == 0) {// in that case exponent == 0 too | |
|
620 | exponent = expmin; | |
|
621 | significand = 0.5; // min value that can be recorded | |
|
622 | } | |
|
623 | ||
|
624 | autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // shift and cast into a 16-bit unsigned int with rounding | |
|
625 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) | |
|
626 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // shift and cast into a 16-bit unsigned int | |
|
627 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) | |
|
628 | pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+26]; // affect an unsigned short int pointer with the | |
|
629 | // adress where the 16-bit word result will be stored | |
|
630 | *pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // put the exponent bits (nbitexp) next to the | |
|
631 | // left place of the significand bits (nbitsig), making | |
|
632 | // the 16-bit word to be recorded, and record it using the pointer | |
|
633 | printf("autocor for S22 significand : %d\n",autocor ); | |
|
634 | printf("tmp_u_char for S22 exponent : %d\n",tmp_u_short_int ); | |
|
635 | printf("*pt_u_short_int for S22 significand + exponent: %.3d or %x\n",*pt_u_short_int, *pt_u_short_int); | |
|
636 | printf("LFR_BP2_F0[i*30+27] : %.3d or %x\n",LFR_BP2_F0[i*30+27], LFR_BP2_F0[i*30+27]); | |
|
637 | printf("LFR_BP2_F0[i*30+26] : %.3d or %x\n",LFR_BP2_F0[i*30+26], LFR_BP2_F0[i*30+26]); | |
|
638 | // S33 | |
|
639 | significand = frexpf(compressed_spectral_matrix_f0[i*30+18], &exponent); // 0.5 <= significand < 1 | |
|
640 | // S33 = significand * 2^exponent | |
|
641 | printf("S33 : %16.8e\n",compressed_spectral_matrix_f0[i*30+18]); | |
|
642 | printf("significand : %16.8e\n",significand); | |
|
643 | printf("exponent : %d\n" ,exponent); | |
|
644 | ||
|
808 | #endif | |
|
645 | 809 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin |
|
646 | 810 | exponent = expmin; |
|
647 | 811 | significand = 0.5; // min value that can be recorded |
|
648 | 812 | } |
|
649 | 813 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) |
|
650 | 814 | exponent = expmax; |
|
651 | 815 | significand = 1.0; // max value that can be recorded |
|
652 | 816 | } |
|
653 | 817 | if (significand == 0) {// in that case exponent == 0 too |
|
654 | 818 | exponent = expmin; |
|
655 | 819 | significand = 0.5; // min value that can be recorded |
|
656 | 820 | } |
|
657 | 821 | |
|
658 |
autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // |
|
|
659 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) | |
|
660 |
tmp_u_short_int = (unsigned short int) (exponent-expmin); // |
|
|
822 | autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // Shift and cast into a 16-bit unsigned int with rounding | |
|
823 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) | |
|
824 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // Shift and cast into a 16-bit unsigned int | |
|
661 | 825 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) |
|
662 |
pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+ |
|
|
663 |
|
|
|
664 |
*pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // |
|
|
826 | pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+8]; // Affect an unsigned short int pointer with the | |
|
827 | // adress where the 16-bit word result will be stored | |
|
828 | *pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // Put the exponent bits (nbitexp) next to the | |
|
665 | 829 | // left place of the significand bits (nbitsig), making |
|
666 | 830 | // the 16-bit word to be recorded, and record it using the pointer |
|
667 | printf("autocor for S33 significand : %d\n",autocor ); | |
|
668 | printf("tmp_u_char for S33 exponent : %d\n",tmp_u_short_int ); | |
|
669 | printf("*pt_u_short_int for S33 significand + exponent: %.3d or %x\n",*pt_u_short_int, *pt_u_short_int); | |
|
670 | printf("LFR_BP2_F0[i*30+25] : %.3d or %x\n",LFR_BP2_F0[i*30+25], LFR_BP2_F0[i*30+25]); | |
|
671 | printf("LFR_BP2_F0[i*30+24] : %.3d or %x\n",LFR_BP2_F0[i*30+24], LFR_BP2_F0[i*30+24]); | |
|
672 | // S44 | |
|
673 | significand = frexpf(compressed_spectral_matrix_f0[i*30+24], &exponent); // 0.5 <= significand < 1 | |
|
674 | // S44 = significand * 2^exponent | |
|
675 | printf("S44 : %16.8e\n",compressed_spectral_matrix_f0[i*30+24]); | |
|
676 | printf("significand : %16.8e\n",significand); | |
|
677 | printf("exponent : %d\n" ,exponent); | |
|
678 | ||
|
679 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin | |
|
680 | exponent = expmin; | |
|
681 | significand = 0.5; // min value that can be recorded | |
|
682 | } | |
|
683 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) | |
|
684 | exponent = expmax; | |
|
685 | significand = 1.0; // max value that can be recorded | |
|
686 | } | |
|
687 | if (significand == 0) {// in that case exponent == 0 too | |
|
688 | exponent = expmin; | |
|
689 | significand = 0.5; // min value that can be recorded | |
|
690 | } | |
|
691 | ||
|
692 | autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // shift and cast into a 16-bit unsigned int with rounding | |
|
693 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) | |
|
694 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // shift and cast into a 16-bit unsigned int | |
|
695 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) | |
|
696 | pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+22]; // affect an unsigned short int pointer with the | |
|
697 | // adress where the 16-bit word result will be stored | |
|
698 | *pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // put the exponent bits (nbitexp) next to the | |
|
699 | // left place of the significand bits (nbitsig), making | |
|
700 | // the 16-bit word to be recorded, and record it using the pointer | |
|
701 | printf("autocor for S44 significand : %d\n",autocor ); | |
|
702 | printf("tmp_u_char for S44 exponent : %d\n",tmp_u_short_int ); | |
|
703 | printf("*pt_u_short_int for S44 significand + exponent: %.3d or %x\n",*pt_u_short_int, *pt_u_short_int); | |
|
704 | printf("LFR_BP2_F0[i*30+23] : %.3d or %x\n",LFR_BP2_F0[i*30+23], LFR_BP2_F0[i*30+23]); | |
|
705 | printf("LFR_BP2_F0[i*30+22] : %.3d or %x\n",LFR_BP2_F0[i*30+22], LFR_BP2_F0[i*30+22]); | |
|
706 | // S55 | |
|
707 | significand = frexpf(compressed_spectral_matrix_f0[i*30+28], &exponent); // 0.5 <= significand < 1 | |
|
708 | // S55 = significand * 2^exponent | |
|
709 | printf("S55 : %16.8e\n",compressed_spectral_matrix_f0[i*30+28]); | |
|
710 | printf("significand : %16.8e\n",significand); | |
|
711 | printf("exponent : %d\n" ,exponent); | |
|
712 | ||
|
713 | if (exponent < expmin) { // value should be >= 0.5 * 2^expmin | |
|
714 | exponent = expmin; | |
|
715 | significand = 0.5; // min value that can be recorded | |
|
716 | } | |
|
717 | if (exponent > expmax) { // value should be < 0.5 * 2^(expmax+1) | |
|
718 | exponent = expmax; | |
|
719 | significand = 1.0; // max value that can be recorded | |
|
720 | } | |
|
721 | if (significand == 0) {// in that case exponent == 0 too | |
|
722 | exponent = expmin; | |
|
723 | significand = 0.5; // min value that can be recorded | |
|
724 | } | |
|
725 | ||
|
726 | autocor = (unsigned short int) ((significand*2-1)*rangesig + 0.5); // shift and cast into a 16-bit unsigned int with rounding | |
|
727 | // where just the first nbitsig bits are used (0, ..., 2^nbitsig-1) | |
|
728 | tmp_u_short_int = (unsigned short int) (exponent-expmin); // shift and cast into a 16-bit unsigned int | |
|
729 | // where just the first nbitexp bits are used (0, ..., 2^nbitexp-1) | |
|
730 | pt_u_short_int = (unsigned short int*) &LFR_BP2_F0[i*30+20]; // affect an unsigned short int pointer with the | |
|
731 | // adress where the 16-bit word result will be stored | |
|
732 | *pt_u_short_int = autocor | (tmp_u_short_int << nbitsig); // put the exponent bits (nbitexp) next to the | |
|
733 | // left place of the significand bits (nbitsig), making | |
|
734 | // the 16-bit word to be recorded, and record it using the pointer | |
|
831 | #ifdef DEBUG_TCH | |
|
735 | 832 | printf("autocor for S55 significand : %d\n",autocor ); |
|
736 | 833 | printf("tmp_u_char for S55 exponent : %d\n",tmp_u_short_int ); |
|
737 |
printf("*pt_u_short_int for S55 significand |
|
|
738 |
printf("LFR_BP2_F0[i*30+ |
|
|
739 |
printf("LFR_BP2_F0[i*30+ |
|
|
740 | ||
|
834 | printf("*pt_u_short_int for S55 exponent + significand : %.3d or %x\n",*pt_u_short_int, *pt_u_short_int); | |
|
835 | printf("LFR_BP2_F0[i*30+9] : %.3d or %x\n",LFR_BP2_F0[i*30+9], LFR_BP2_F0[i*30+9]); | |
|
836 | printf("LFR_BP2_F0[i*30+8] : %.3d or %x\n",LFR_BP2_F0[i*30+8], LFR_BP2_F0[i*30+8]); | |
|
837 | #endif | |
|
741 | 838 | } |
|
742 | 839 | } |
|
743 | 840 |
@@ -1,29 +1,32 | |||
|
1 | // In the frame of RPW LFR Sofware ICD Issue1 Rev8 (05/07/2013) | |
|
2 | // version 1: 31/07/2013 | |
|
3 | ||
|
1 | 4 | #ifndef BASIC_PARAMETERS_H_INCLUDED |
|
2 | 5 | #define BASIC_PARAMETERS_H_INCLUDED |
|
3 | 6 | |
|
4 | 7 | #define LPP_SPECTRAL_MATRIX_CTRL 0x80000700 |
|
5 | 8 | #define LPP_SPECTRAL_MATRIX_1 0x80000704 |
|
6 | 9 | #define LPP_SPECTRAL_MATRIX_2 0x80000708 |
|
7 | 10 | |
|
8 | 11 | #define NB_BINS_SPECTRAL_MATRIX 128 |
|
9 |
#define NB_VALUES_PER_SPECTRAL_MATRIX |
|
|
12 | #define NB_VALUES_PER_SPECTRAL_MATRIX 25 | |
|
10 | 13 | #define TOTAL_SIZE_SPECTRAL_MATRIX NB_BINS_SPECTRAL_MATRIX * NB_VALUES_PER_SPECTRAL_MATRIX |
|
11 |
#define NB_BINS_COMPRESSED_MATRIX_f0 |
|
|
14 | #define NB_BINS_COMPRESSED_MATRIX_f0 1 | |
|
12 | 15 | #define SIZE_COMPRESSED_SPECTRAL_MATRIX_f1 13 |
|
13 | 16 | #define SIZE_COMPRESSED_SPECTRAL_MATRIX_f2 12 |
|
14 | 17 | #define TOTAL_SIZE_COMPRESSED_MATRIX_f0 NB_BINS_COMPRESSED_MATRIX_f0 * NB_VALUES_PER_SPECTRAL_MATRIX |
|
15 | 18 | #define NB_AVERAGE_NORMAL_f0 4 |
|
16 | 19 | |
|
17 | 20 | volatile int spectral_matrix_f0_a[TOTAL_SIZE_SPECTRAL_MATRIX]; |
|
18 | 21 | volatile int spectral_matrix_f0_b[TOTAL_SIZE_SPECTRAL_MATRIX]; |
|
19 | 22 | int averaged_spectral_matrix_f0[TOTAL_SIZE_SPECTRAL_MATRIX]; |
|
20 | 23 | |
|
21 |
extern float compressed_spectral_matrix_f0[ |
|
|
24 | extern float compressed_spectral_matrix_f0[]; | |
|
22 | 25 | |
|
23 |
extern unsigned char LFR_BP1_F0[ |
|
|
24 |
extern unsigned char LFR_BP2_F0[ |
|
|
26 | extern unsigned char LFR_BP1_F0[]; | |
|
27 | extern unsigned char LFR_BP2_F0[]; | |
|
25 | 28 | |
|
26 | 29 | void BP1_set(); |
|
27 | 30 | void BP2_set(); |
|
28 | 31 | |
|
29 | 32 | #endif // BASIC_PARAMETERS_H_INCLUDED |
@@ -1,25 +1,55 | |||
|
1 | // In the frame of RPW LFR Sofware ICD Issue1 Rev8 (05/07/2013) | |
|
2 | // version 1: 31/07/2013 | |
|
3 | ||
|
1 | 4 | #include <file_utilities.h> |
|
2 | 5 | |
|
3 |
int lecture_file_sm(const char * |
|
|
6 | int lecture_file_sm(const char *fileName) | |
|
4 | 7 | { |
|
5 | unsigned int i; | |
|
8 | // unsigned int i; | |
|
6 | 9 | |
|
7 | 10 | FILE *infile; |
|
8 | 11 | infile = fopen(fileName, "rb"); // open explicitely a binary file !!! ... |
|
9 | 12 | if(infile == NULL) { |
|
10 | printf("Hello I cannot open the file!\n"); | |
|
13 | printf("Hello I cannot open the file! \n"); | |
|
11 | 14 | return 0; |
|
12 | 15 | } |
|
13 | 16 | (void) fread(compressed_spectral_matrix_f0, sizeof(compressed_spectral_matrix_f0), 1, infile); |
|
14 | 17 | (void) fclose(infile); |
|
15 |
|
|
|
18 | printf("size of compressed_spectral_matrix_f0 : %d\n", sizeof(compressed_spectral_matrix_f0)); | |
|
19 | ||
|
16 | 20 | printf("compressed_spectral_matrix_f0 : \n"); |
|
17 | for (i = 0; i < 15; i++) { | |
|
18 |
printf("Element |
|
|
19 |
compressed_spectral_matrix_f0[ |
|
|
20 | compressed_spectral_matrix_f0[2*i+1]); | |
|
21 | } | |
|
21 | ||
|
22 | printf("Element %.2d (S11) (%.2d & --) => Re:%16.8e Im:%16.8e\n", 1, 0, | |
|
23 | compressed_spectral_matrix_f0[0], 0.); | |
|
24 | printf("Element %.2d (S12) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 2, 1, 2, | |
|
25 | compressed_spectral_matrix_f0[1], compressed_spectral_matrix_f0[2]); | |
|
26 | printf("Element %.2d (S13) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 3, 3, 4, | |
|
27 | compressed_spectral_matrix_f0[3], compressed_spectral_matrix_f0[4]); | |
|
28 | printf("Element %.2d (S14) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 4, 5, 6, | |
|
29 | compressed_spectral_matrix_f0[5], compressed_spectral_matrix_f0[6]); | |
|
30 | printf("Element %.2d (S15) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 5, 7, 8, | |
|
31 | compressed_spectral_matrix_f0[7], compressed_spectral_matrix_f0[8]); | |
|
32 | printf("Element %.2d (S22) (%.2d & --) => Re:%16.8e Im:%16.8e\n", 6, 9, | |
|
33 | compressed_spectral_matrix_f0[9], 0.); | |
|
34 | printf("Element %.2d (S23) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 7, 10, 11, | |
|
35 | compressed_spectral_matrix_f0[10], compressed_spectral_matrix_f0[11]); | |
|
36 | printf("Element %.2d (S24) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 8, 12, 13, | |
|
37 | compressed_spectral_matrix_f0[12], compressed_spectral_matrix_f0[13]); | |
|
38 | printf("Element %.2d (S25) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 9, 14, 15, | |
|
39 | compressed_spectral_matrix_f0[14], compressed_spectral_matrix_f0[15]); | |
|
40 | printf("Element %.2d (S33) (%.2d & --) => Re:%16.8e Im:%16.8e\n", 10, 16, | |
|
41 | compressed_spectral_matrix_f0[16], 0.); | |
|
42 | printf("Element %.2d (S34) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 11, 17, 18, | |
|
43 | compressed_spectral_matrix_f0[17], compressed_spectral_matrix_f0[18]); | |
|
44 | printf("Element %.2d (S35) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 12, 19, 20, | |
|
45 | compressed_spectral_matrix_f0[19], compressed_spectral_matrix_f0[20]); | |
|
46 | printf("Element %.2d (S44) (%.2d & --) => Re:%16.8e Im:%16.8e\n", 13, 21, | |
|
47 | compressed_spectral_matrix_f0[21], 0.); | |
|
48 | printf("Element %.2d (S45) (%.2d & %.2d) => Re:%16.8e Im:%16.8e\n", 14, 22, 23, | |
|
49 | compressed_spectral_matrix_f0[22], compressed_spectral_matrix_f0[23]); | |
|
50 | printf("Element %.2d (S55) (%.2d & --) => Re:%16.8e Im:%16.8e\n", 15, 24, | |
|
51 | compressed_spectral_matrix_f0[24], 0.); | |
|
22 | 52 | |
|
23 | 53 | return 0; |
|
24 | 54 | } |
|
25 | 55 |
@@ -1,13 +1,15 | |||
|
1 | // In the frame of RPW LFR Sofware ICD Issue1 Rev8 (05/07/2013) | |
|
2 | // version 1: 31/07/2013 | |
|
3 | ||
|
1 | 4 | #ifndef FILE_UTILITIES_H |
|
2 | 5 | #define FILE_UTILITIES_H |
|
3 | 6 | |
|
4 | 7 | #include <stdio.h> |
|
5 | #include <basic_parameters_1_ICD_issue1rev6.h> | |
|
8 | #include <malloc.h> | |
|
9 | #include <basic_parameters.h> | |
|
6 | 10 | |
|
7 |
extern float compressed_spectral_matrix_f0[ |
|
|
8 | extern unsigned char LFR_BP1_F0[ ]; | |
|
9 | extern unsigned char LFR_BP2_F0[ ]; | |
|
11 | extern float compressed_spectral_matrix_f0[TOTAL_SIZE_COMPRESSED_MATRIX_f0]; | |
|
10 | 12 | |
|
11 | 13 | int lecture_file_sm(const char *fileName); |
|
12 | 14 | |
|
13 | 15 | #endif // FILE_UTILITIES_H |
@@ -1,40 +1,42 | |||
|
1 | // In the frame of RPW LFR Sofware ICD Issue1 Rev8 (05/07/2013) | |
|
2 | // version 1: 31/07/2013 | |
|
3 | ||
|
1 | 4 | #include <stdio.h> |
|
2 | #include <malloc.h> | |
|
3 | #include <basic_parameters_1_ICD_issue1rev6.h> | |
|
5 | #include <basic_parameters.h> | |
|
4 | 6 | #include <file_utilities.h> |
|
5 | 7 | |
|
6 | 8 | float compressed_spectral_matrix_f0[TOTAL_SIZE_COMPRESSED_MATRIX_f0]; |
|
7 | 9 | |
|
8 | 10 | unsigned char LFR_BP1_F0[NB_BINS_COMPRESSED_MATRIX_f0*9]; |
|
9 | 11 | unsigned char LFR_BP2_F0[NB_BINS_COMPRESSED_MATRIX_f0*30]; |
|
10 | 12 | |
|
11 | 13 | int main(void) |
|
12 | 14 | { |
|
13 | 15 | printf("Hello World!\n"); |
|
14 | 16 | |
|
15 | 17 | lecture_file_sm("sm_test1.dat"); |
|
16 | 18 | |
|
17 | 19 | BP1_set(); |
|
18 | 20 | |
|
19 | 21 | BP2_set(); |
|
20 | 22 | |
|
21 | 23 | return 0; |
|
22 | 24 | } |
|
23 | 25 | |
|
24 | 26 | |
|
25 | 27 | |
|
26 | 28 | |
|
27 | 29 | |
|
28 | 30 | |
|
29 | 31 | |
|
30 | 32 | |
|
31 | 33 | |
|
32 | 34 | |
|
33 | 35 | |
|
34 | 36 | |
|
35 | 37 | |
|
36 | 38 | |
|
37 | 39 | |
|
38 | 40 | |
|
39 | 41 | |
|
40 | 42 |
|
1 | NO CONTENT: modified file, binary diff hidden |
@@ -1,11 +1,11 | |||
|
1 | 1 | # -------------------------------------------------------- |
|
2 | 2 | # MISSION NAME : LFR/RPW/SO |
|
3 | 3 | # DATA NAME : test matrix |
|
4 |
# NB_TOTAL_VALUES : |
|
|
5 |
# NB_COMPONENTS : |
|
|
6 |
# FORMAT : ( |
|
|
4 | # NB_TOTAL_VALUES : 25 | |
|
5 | # NB_COMPONENTS : 25 | |
|
6 | # FORMAT : (25(e16.8)) | |
|
7 | 7 | # UNIT : floating |
|
8 | 8 | # -------------------------------------------------------- |
|
9 | 9 | # BEGIN DATA |
|
10 | 1.00200234e+004 0.00000000e+000-8.89210144e+002 1.14001392e+003-5.19522591e+001 4.09957178e+003 5.89932617e+002-8.61112012e+003 8.60225684e+003-7.61522522e+002 3.59796326e+002 0.00000000e+000 4.94544861e+002-4.77043762e+002-1.08253699e+003 5.83120300e+002-8.45693970e+002-1.06855054e+003 1.77511353e+003 0.00000000e+000-3.44424780e+003-2.54208740e+002-2.31431686e+002-3.53662280e+003 7.53777246e+003 0.00000000e+000 1.27810120e+003 7.40368945e+003 7.60701318e+003 0.00000000e+000 1.00200234e+004 0.00000000e+000-8.89210144e+002 1.14001392e+003-5.19522591e+001 4.09957178e+003 5.89932617e+002-8.61112012e+003 8.60225684e+003-7.61522522e+002 3.59796326e+002 0.00000000e+000 4.94544861e+002-4.77043762e+002-1.08253699e+003 5.83120300e+002-8.45693970e+002-1.06855054e+003 1.77511353e+003 0.00000000e+000-3.44424780e+003-2.54208740e+002-2.31431686e+002-3.53662280e+003 7.53777246e+003 0.00000000e+000 1.27810120e+003 7.40368945e+003 7.60701318e+003 0.00000000e+000 | |
|
10 | 1.07466725e+006-7.08566328e+004 2.09468203e+004 8.59915781e+004 7.34300125e+005 9.87159375e+004-7.37980250e+005 4.67882438e+005-1.03121328e+005 6.25625000e+004-8.66193281e+004-1.58213813e+005 1.17326563e+005 4.84252188e+004-5.26065703e+004 1.82120313e+003 8.69862375e+005-7.28594313e+005 1.30681789e+005-8.08662891e+003-3.71955031e+005 8.48249375e+005 6.64304844e+004 3.22365375e+005 2.20681547e+005 | |
|
11 | 11 | # END DATA |
@@ -1,17 +1,18 | |||
|
1 | 1 | TEMPLATE = app |
|
2 | 2 | CONFIG += console |
|
3 | 3 | CONFIG -= app_bundle |
|
4 | 4 | CONFIG -= qt |
|
5 | 5 | |
|
6 | # | |
|
7 | 6 | DEFINES += DEBUG_TCH |
|
7 | #DEFINES += MSB_FIRST_TCH # SPARC convention | |
|
8 | DEFINES += LSB_FIRST_TCH # PC convention | |
|
8 | 9 | |
|
9 | 10 | SOURCES += main.c \ |
|
10 |
basic_parameters |
|
|
11 | basic_parameters.c \ | |
|
11 | 12 | file_utilities.c |
|
12 | 13 | |
|
13 | 14 | HEADERS += \ |
|
14 | file_utilities.h \ | |
|
15 | basic_parameters_1_ICD_issue1rev6.h | |
|
15 | basic_parameters.h \ | |
|
16 | file_utilities.h | |
|
16 | 17 | |
|
17 | 18 |
@@ -1,243 +1,243 | |||
|
1 | 1 | <?xml version="1.0" encoding="UTF-8"?> |
|
2 | 2 | <!DOCTYPE QtCreatorProject> |
|
3 |
<!-- Written by QtCreator 2.7.0, 2013-07- |
|
|
3 | <!-- Written by QtCreator 2.7.0, 2013-07-31T10:56:37. --> | |
|
4 | 4 | <qtcreator> |
|
5 | 5 | <data> |
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6 | 6 | <variable>ProjectExplorer.Project.ActiveTarget</variable> |
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7 | 7 | <value type="int">0</value> |
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8 | 8 | </data> |
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9 | 9 | <data> |
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10 | 10 | <variable>ProjectExplorer.Project.EditorSettings</variable> |
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11 | 11 | <valuemap type="QVariantMap"> |
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12 | 12 | <value type="bool" key="EditorConfiguration.AutoIndent">true</value> |
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13 | 13 | <value type="bool" key="EditorConfiguration.AutoSpacesForTabs">false</value> |
|
14 | 14 | <value type="bool" key="EditorConfiguration.CamelCaseNavigation">true</value> |
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15 | 15 | <valuemap type="QVariantMap" key="EditorConfiguration.CodeStyle.0"> |
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16 | 16 | <value type="QByteArray" key="language">Cpp</value> |
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17 | 17 | <valuemap type="QVariantMap" key="value"> |
|
18 | 18 | <value type="QString" key="CurrentPreferences">CppGlobal</value> |
|
19 | 19 | </valuemap> |
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20 | 20 | </valuemap> |
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21 | 21 | <valuemap type="QVariantMap" key="EditorConfiguration.CodeStyle.1"> |
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24 | 24 | <value type="QString" key="CurrentPreferences">QmlJSGlobal</value> |
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27 | 27 | <value type="int" key="EditorConfiguration.CodeStyle.Count">2</value> |
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28 | 28 | <value type="QByteArray" key="EditorConfiguration.Codec">UTF-8</value> |
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175 | 175 | <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Déployer localement</value> |
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176 | 176 | <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value> |
|
177 | 177 | <value type="QByteArray" key="ProjectExplorer.ProjectConfiguration.Id">ProjectExplorer.DefaultDeployConfiguration</value> |
|
178 | 178 | </valuemap> |
|
179 | 179 | <value type="int" key="ProjectExplorer.Target.DeployConfigurationCount">1</value> |
|
180 | 180 | <valuemap type="QVariantMap" key="ProjectExplorer.Target.RunConfiguration.0"> |
|
181 | 181 | <value type="bool" key="Analyzer.Project.UseGlobal">true</value> |
|
182 | 182 | <valuelist type="QVariantList" key="Analyzer.Valgrind.AddedSuppressionFiles"/> |
|
183 | 183 | <value type="bool" key="Analyzer.Valgrind.Callgrind.CollectBusEvents">false</value> |
|
184 | 184 | <value type="bool" key="Analyzer.Valgrind.Callgrind.CollectSystime">false</value> |
|
185 | 185 | <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableBranchSim">false</value> |
|
186 | 186 | <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableCacheSim">false</value> |
|
187 | 187 | <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableEventToolTips">true</value> |
|
188 | 188 | <value type="double" key="Analyzer.Valgrind.Callgrind.MinimumCostRatio">0.01</value> |
|
189 | 189 | <value type="double" key="Analyzer.Valgrind.Callgrind.VisualisationMinimumCostRatio">10</value> |
|
190 | 190 | <value type="bool" key="Analyzer.Valgrind.FilterExternalIssues">true</value> |
|
191 | 191 | <value type="int" key="Analyzer.Valgrind.NumCallers">25</value> |
|
192 | 192 | <valuelist type="QVariantList" key="Analyzer.Valgrind.RemovedSuppressionFiles"/> |
|
193 | 193 | <value type="bool" key="Analyzer.Valgrind.TrackOrigins">true</value> |
|
194 | 194 | <value type="QString" key="Analyzer.Valgrind.ValgrindExecutable">valgrind</value> |
|
195 | 195 | <valuelist type="QVariantList" key="Analyzer.Valgrind.VisibleErrorKinds"> |
|
196 | 196 | <value type="int">0</value> |
|
197 | 197 | <value type="int">1</value> |
|
198 | 198 | <value type="int">2</value> |
|
199 | 199 | <value type="int">3</value> |
|
200 | 200 | <value type="int">4</value> |
|
201 | 201 | <value type="int">5</value> |
|
202 | 202 | <value type="int">6</value> |
|
203 | 203 | <value type="int">7</value> |
|
204 | 204 | <value type="int">8</value> |
|
205 | 205 | <value type="int">9</value> |
|
206 | 206 | <value type="int">10</value> |
|
207 | 207 | <value type="int">11</value> |
|
208 | 208 | <value type="int">12</value> |
|
209 | 209 | <value type="int">13</value> |
|
210 | 210 | <value type="int">14</value> |
|
211 | 211 | </valuelist> |
|
212 | 212 | <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">tests1</value> |
|
213 | 213 | <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value> |
|
214 | 214 | <value type="QByteArray" key="ProjectExplorer.ProjectConfiguration.Id">Qt4ProjectManager.Qt4RunConfiguration:C:/Documents and Settings/chust/DD CHUST/Missions/Solar Orbiter/LFR/Prog C/tests bp Paul/tests1/tests1.pro</value> |
|
215 | 215 | <value type="int" key="Qt4ProjectManager.Qt4RunConfiguration.BaseEnvironmentBase">2</value> |
|
216 | 216 | <value type="QString" key="Qt4ProjectManager.Qt4RunConfiguration.CommandLineArguments"></value> |
|
217 | 217 | <value type="QString" key="Qt4ProjectManager.Qt4RunConfiguration.ProFile">tests1.pro</value> |
|
218 | 218 | <value type="bool" key="Qt4ProjectManager.Qt4RunConfiguration.UseDyldImageSuffix">false</value> |
|
219 | 219 | <value type="bool" key="Qt4ProjectManager.Qt4RunConfiguration.UseTerminal">true</value> |
|
220 | 220 | <valuelist type="QVariantList" key="Qt4ProjectManager.Qt4RunConfiguration.UserEnvironmentChanges"/> |
|
221 | 221 | <value type="QString" key="Qt4ProjectManager.Qt4RunConfiguration.UserWorkingDirectory">C:/Documents and Settings/chust/DD CHUST/Missions/Solar Orbiter/LFR/Prog C/tests bp Paul/tests1</value> |
|
222 | 222 | <value type="uint" key="RunConfiguration.QmlDebugServerPort">3768</value> |
|
223 | 223 | <value type="bool" key="RunConfiguration.UseCppDebugger">true</value> |
|
224 | 224 | <value type="bool" key="RunConfiguration.UseMultiProcess">false</value> |
|
225 | 225 | <value type="bool" key="RunConfiguration.UseQmlDebugger">false</value> |
|
226 | 226 | <value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value> |
|
227 | 227 | </valuemap> |
|
228 | 228 | <value type="int" key="ProjectExplorer.Target.RunConfigurationCount">1</value> |
|
229 | 229 | </valuemap> |
|
230 | 230 | </data> |
|
231 | 231 | <data> |
|
232 | 232 | <variable>ProjectExplorer.Project.TargetCount</variable> |
|
233 | 233 | <value type="int">1</value> |
|
234 | 234 | </data> |
|
235 | 235 | <data> |
|
236 | 236 | <variable>ProjectExplorer.Project.Updater.EnvironmentId</variable> |
|
237 | 237 | <value type="QString">{9bfc8a8c-2fd7-44ce-982a-ffe56dd5e5fa}</value> |
|
238 | 238 | </data> |
|
239 | 239 | <data> |
|
240 | 240 | <variable>ProjectExplorer.Project.Updater.FileVersion</variable> |
|
241 | 241 | <value type="int">12</value> |
|
242 | 242 | </data> |
|
243 | 243 | </qtcreator> |
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